Dataset Information

Conventions: CF-1.1
title: GDR - Native dataset
institution: CNES and JPL
source: radar altimeter
history: 2016-03-16 02:57:02 : Creation
contact: CNES aviso@altimetry.fr NASA/JPL podaac@podaac.jpl.nasa.gov
references: CNES Reprocessing Tool 2.0 (Updates to time tags, ranges, models and all JMR derived parameters updated with dedicated recalibration of JMR in 2015)
processing_center: SALP and JSDS
reference_document: AVISO and PODAAC User Handbook IGDR and GDR Jason Products, SALP-MU-M5-OP-13184-CN
mission_name: Jason-1
altimeter_sensor_name: POSEIDON-2
radiometer_sensor_name: JMR
doris_sensor_name: 2GM
gpsr_sensor_name: TRSR
acq_station_name: CNES/NASA
cycle_number: 374
absolute_rev_number: 47387
pass_number: 156
absolute_pass_number: 94898
equator_time: 2012-03-02 20:49:06.635000
equator_longitude: 241.6700000000000
first_meas_time: 2012-03-02 20:21:02.991761
last_meas_time: 2012-03-02 21:17:12.648388
ellipsoid_axis: 6378136.300000000
ellipsoid_flattening: 0.003352813177896900


Variables in this Dataset

time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
meas_ind: Array of 16 bit Integers [meas_ind = 0..19]
long_name: elementary measurement index
units: count
comment: Set to be compliant with the CF-1.1 convention
time_20hz: Grid
_FillValue: 1.844674407370955e+19
long_name: time 20 Hz (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time_20hz variable is corrected from datation bias. See Jason-1 User handbook.
time_20hz: Array of 64 bit Reals [time = 0..3062][meas_ind = 0..19]
_FillValue: 1.844674407370955e+19
long_name: time 20 Hz (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time_20hz variable is corrected from datation bias. See Jason-1 User handbook.
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
meas_ind: Array of 16 bit Integers [meas_ind = 0..19]
long_name: elementary measurement index
units: count
comment: Set to be compliant with the CF-1.1 convention
lat: Grid
long_name: latitude
standard_name: latitude
units: degrees_north
quality_flag: orb_state_flag_rest
scale_factor: 1.000000000000000e-06
comment: Positive latitude is North latitude, negative latitude is South latitude. See Jason-1 User Handbook.
lat: Array of 32 bit Integers [time = 0..3062]
long_name: latitude
standard_name: latitude
units: degrees_north
quality_flag: orb_state_flag_rest
scale_factor: 1.000000000000000e-06
comment: Positive latitude is North latitude, negative latitude is South latitude. See Jason-1 User Handbook.
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
lon: Grid
long_name: longitude
standard_name: longitude
units: degrees_east
quality_flag: orb_state_flag_rest
scale_factor: 1.000000000000000e-06
comment: East longitude relative to Greenwich meridian. See Jason-1 User Handbook.
lon: Array of 32 bit Integers [time = 0..3062]
long_name: longitude
standard_name: longitude
units: degrees_east
quality_flag: orb_state_flag_rest
scale_factor: 1.000000000000000e-06
comment: East longitude relative to Greenwich meridian. See Jason-1 User Handbook.
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
lon_20hz: Grid
_FillValue: 2147483647
long_name: 20 Hz longitude
standard_name: longitude
units: degrees_east
scale_factor: 1.000000000000000e-06
comment: East longitude relative to Greenwich meridian. See Jason-1 User Handbook
lon_20hz: Array of 32 bit Integers [time = 0..3062][meas_ind = 0..19]
_FillValue: 2147483647
long_name: 20 Hz longitude
standard_name: longitude
units: degrees_east
scale_factor: 1.000000000000000e-06
comment: East longitude relative to Greenwich meridian. See Jason-1 User Handbook
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
meas_ind: Array of 16 bit Integers [meas_ind = 0..19]
long_name: elementary measurement index
units: count
comment: Set to be compliant with the CF-1.1 convention
lat_20hz: Grid
_FillValue: 2147483647
long_name: 20 Hz latitude
standard_name: latitude
units: degrees_north
scale_factor: 1.000000000000000e-06
comment: Positive latitude is North latitude, negative latitude is South latitude. See Jason-1 User Handbook
lat_20hz: Array of 32 bit Integers [time = 0..3062][meas_ind = 0..19]
_FillValue: 2147483647
long_name: 20 Hz latitude
standard_name: latitude
units: degrees_north
scale_factor: 1.000000000000000e-06
comment: Positive latitude is North latitude, negative latitude is South latitude. See Jason-1 User Handbook
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
meas_ind: Array of 16 bit Integers [meas_ind = 0..19]
long_name: elementary measurement index
units: count
comment: Set to be compliant with the CF-1.1 convention
surface_type: Grid
_FillValue: 127
long_name: surface type
flag_values: 0, 1, 2, 3
flag_meanings: ocean lake_enclosed_sea ice land
coordinates: lon lat
comment: Computed using a DTM2000 file: 0 = open oceans or semi-enclosed seas; 1 = enclosed seas or lakes; 2 = continental ice; 3 = land. See Jason-1 User Handbook
surface_type: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: surface type
flag_values: 0, 1, 2, 3
flag_meanings: ocean lake_enclosed_sea ice land
coordinates: lon lat
comment: Computed using a DTM2000 file: 0 = open oceans or semi-enclosed seas; 1 = enclosed seas or lakes; 2 = continental ice; 3 = land. See Jason-1 User Handbook
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
surface_type_globcover: Grid
_FillValue: 127
long_name: surface type globcover
flag_values: 0b, 1b, 2b, 3b, 4b, 5b, 6b
flag_meanings: open_ocean land continental_water aquatic_vegetation continental_ice_snow floating_ice salted_basin
coordinates: lon lat
comment: Computed from a mask built with MODIS and GlobCover data, 0 = Open ocean; 1 = Land; 2 = Continental waters; 3 = Aquatic vegetation; 4 = Continental ice and snow; 5 = Floating ice; 6 = Salted basin. See Jason-1 User Handbook
surface_type_globcover: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: surface type globcover
flag_values: 0b, 1b, 2b, 3b, 4b, 5b, 6b
flag_meanings: open_ocean land continental_water aquatic_vegetation continental_ice_snow floating_ice salted_basin
coordinates: lon lat
comment: Computed from a mask built with MODIS and GlobCover data, 0 = Open ocean; 1 = Land; 2 = Continental waters; 3 = Aquatic vegetation; 4 = Continental ice and snow; 5 = Floating ice; 6 = Salted basin. See Jason-1 User Handbook
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
alt_echo_type: Grid
_FillValue: 127
long_name: altimeter echo type
flag_values: 0, 1
flag_meanings: ocean_like non_ocean_like
coordinates: lon lat
comment: The altimeter echo type is determined by testing the rms of the high rate range measurements against a threshold as well as the number of valid high rate range measurements against a minimum value
alt_echo_type: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: altimeter echo type
flag_values: 0, 1
flag_meanings: ocean_like non_ocean_like
coordinates: lon lat
comment: The altimeter echo type is determined by testing the rms of the high rate range measurements against a threshold as well as the number of valid high rate range measurements against a minimum value
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
rad_surf_type: Grid
_FillValue: 127
long_name: radiometer surface type
flag_values: 0, 1, 2
flag_meanings: open_ocean near_coast land
coordinates: lon lat
comment: The radiometer surface type flag is applicable to the radiometer wet troposphere path delays provided by rad_wet_tropo_corr. A value of 0 indicates that open ocean processing is used to compute the path delay, 1 indicates coastal processing is used, and 2 indicates the path delay is invalid due to land
rad_surf_type: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: radiometer surface type
flag_values: 0, 1, 2
flag_meanings: open_ocean near_coast land
coordinates: lon lat
comment: The radiometer surface type flag is applicable to the radiometer wet troposphere path delays provided by rad_wet_tropo_corr. A value of 0 indicates that open ocean processing is used to compute the path delay, 1 indicates coastal processing is used, and 2 indicates the path delay is invalid due to land
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
rad_distance_to_land: Grid
_FillValue: 2147483647
long_name: radiometer radial distance to land
units: m
coordinates: lon lat
comment: Shortest distance between nadir sub-satellite point and land
rad_distance_to_land: Array of 32 bit Integers [time = 0..3062]
_FillValue: 2147483647
long_name: radiometer radial distance to land
units: m
coordinates: lon lat
comment: Shortest distance between nadir sub-satellite point and land
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
qual_alt_1hz_range_ku: Grid
_FillValue: 127
long_name: quality flag for 1 Hz altimeter data: Ku band range
flag_values: 0, 1
flag_meanings: good bad
coordinates: lon lat
qual_alt_1hz_range_ku: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: quality flag for 1 Hz altimeter data: Ku band range
flag_values: 0, 1
flag_meanings: good bad
coordinates: lon lat
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
qual_alt_1hz_range_c: Grid
_FillValue: 127
long_name: quality flag for 1 Hz altimeter data: C band range
flag_values: 0, 1
flag_meanings: good bad
coordinates: lon lat
qual_alt_1hz_range_c: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: quality flag for 1 Hz altimeter data: C band range
flag_values: 0, 1
flag_meanings: good bad
coordinates: lon lat
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
qual_alt_1hz_swh_ku: Grid
_FillValue: 127
long_name: quality flag for 1 Hz altimeter data: Ku band SWH
flag_values: 0, 1
flag_meanings: good bad
coordinates: lon lat
qual_alt_1hz_swh_ku: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: quality flag for 1 Hz altimeter data: Ku band SWH
flag_values: 0, 1
flag_meanings: good bad
coordinates: lon lat
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
qual_alt_1hz_swh_c: Grid
_FillValue: 127
long_name: quality flag for 1 Hz altimeter data: C band SWH
flag_values: 0, 1
flag_meanings: good bad
coordinates: lon lat
qual_alt_1hz_swh_c: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: quality flag for 1 Hz altimeter data: C band SWH
flag_values: 0, 1
flag_meanings: good bad
coordinates: lon lat
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
qual_alt_1hz_sig0_ku: Grid
_FillValue: 127
long_name: quality flag for 1 Hz altimeter data: Ku band backscatter coefficient
flag_values: 0, 1
flag_meanings: good bad
coordinates: lon lat
qual_alt_1hz_sig0_ku: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: quality flag for 1 Hz altimeter data: Ku band backscatter coefficient
flag_values: 0, 1
flag_meanings: good bad
coordinates: lon lat
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
qual_alt_1hz_sig0_c: Grid
_FillValue: 127
long_name: quality flag for 1 Hz altimeter data: C band backscatter coefficient
flag_values: 0, 1
flag_meanings: good bad
coordinates: lon lat
qual_alt_1hz_sig0_c: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: quality flag for 1 Hz altimeter data: C band backscatter coefficient
flag_values: 0, 1
flag_meanings: good bad
coordinates: lon lat
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
qual_alt_1hz_off_nadir_angle_wf_ku: Grid
_FillValue: 127
long_name: quality flag for 1 Hz altimeter data: off nadir angle from Ku band
flag_values: 0, 1
flag_meanings: good bad
coordinates: lon lat
qual_alt_1hz_off_nadir_angle_wf_ku: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: quality flag for 1 Hz altimeter data: off nadir angle from Ku band
flag_values: 0, 1
flag_meanings: good bad
coordinates: lon lat
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
qual_inst_corr_1hz_range_ku: Grid
_FillValue: 127
long_name: quality flag for 1 Hz instrumental correction: Ku band range
flag_values: 0, 1
flag_meanings: good bad
coordinates: lon lat
qual_inst_corr_1hz_range_ku: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: quality flag for 1 Hz instrumental correction: Ku band range
flag_values: 0, 1
flag_meanings: good bad
coordinates: lon lat
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
qual_inst_corr_1hz_range_c: Grid
_FillValue: 127
long_name: quality flag for 1 Hz instrumental correction: C band range
flag_values: 0, 1
flag_meanings: good bad
coordinates: lon lat
qual_inst_corr_1hz_range_c: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: quality flag for 1 Hz instrumental correction: C band range
flag_values: 0, 1
flag_meanings: good bad
coordinates: lon lat
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
qual_inst_corr_1hz_swh_ku: Grid
_FillValue: 127
long_name: quality flag for 1 Hz instrumental correction: Ku band SWH
flag_values: 0, 1
flag_meanings: good bad
coordinates: lon lat
qual_inst_corr_1hz_swh_ku: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: quality flag for 1 Hz instrumental correction: Ku band SWH
flag_values: 0, 1
flag_meanings: good bad
coordinates: lon lat
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
qual_inst_corr_1hz_swh_c: Grid
_FillValue: 127
long_name: quality flag for 1 Hz instrumental correction: C band SWH
flag_values: 0, 1
flag_meanings: good bad
coordinates: lon lat
qual_inst_corr_1hz_swh_c: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: quality flag for 1 Hz instrumental correction: C band SWH
flag_values: 0, 1
flag_meanings: good bad
coordinates: lon lat
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
qual_inst_corr_1hz_sig0_ku: Grid
_FillValue: 127
long_name: quality flag for 1 Hz instrumental correction: Ku band backscatter coefficient
flag_values: 0, 1
flag_meanings: good bad
coordinates: lon lat
qual_inst_corr_1hz_sig0_ku: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: quality flag for 1 Hz instrumental correction: Ku band backscatter coefficient
flag_values: 0, 1
flag_meanings: good bad
coordinates: lon lat
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
qual_inst_corr_1hz_sig0_c: Grid
_FillValue: 127
long_name: quality flag for 1 Hz instrumental correction: C band backscatter coefficient
flag_values: 0, 1
flag_meanings: good bad
coordinates: lon lat
qual_inst_corr_1hz_sig0_c: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: quality flag for 1 Hz instrumental correction: C band backscatter coefficient
flag_values: 0, 1
flag_meanings: good bad
coordinates: lon lat
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
qual_rad_1hz_tb187: Grid
_FillValue: 127
long_name: quality flag for 1 Hz radiometer data: 18.7 GHz brightness temperature
flag_values: 0, 1
flag_meanings: good bad
coordinates: lon lat
qual_rad_1hz_tb187: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: quality flag for 1 Hz radiometer data: 18.7 GHz brightness temperature
flag_values: 0, 1
flag_meanings: good bad
coordinates: lon lat
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
qual_rad_1hz_tb238: Grid
_FillValue: 127
long_name: quality flag for 1 Hz radiometer data: 23.8 GHz brightness temperature
flag_values: 0, 1
flag_meanings: good bad
coordinates: lon lat
qual_rad_1hz_tb238: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: quality flag for 1 Hz radiometer data: 23.8 GHz brightness temperature
flag_values: 0, 1
flag_meanings: good bad
coordinates: lon lat
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
qual_rad_1hz_tb340: Grid
_FillValue: 127
long_name: quality flag for 1 Hz radiometer data: 34.0 GHz brightness temperature
flag_values: 0, 1
flag_meanings: good bad
coordinates: lon lat
qual_rad_1hz_tb340: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: quality flag for 1 Hz radiometer data: 34.0 GHz brightness temperature
flag_values: 0, 1
flag_meanings: good bad
coordinates: lon lat
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
rad_averaging_flag: Grid
_FillValue: 127
long_name: radiometer along-track averaging flag
flag_values: 0, 1
flag_meanings: good bad
coordinates: lon lat
rad_averaging_flag: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: radiometer along-track averaging flag
flag_values: 0, 1
flag_meanings: good bad
coordinates: lon lat
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
rad_land_frac_187: Grid
_FillValue: 32767
long_name: radiometer 18.7 GHz antenna gain weighted land fraction in main beam
units: %
scale_factor: 0.01000000000000000
coordinates: lon lat
rad_land_frac_187: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: radiometer 18.7 GHz antenna gain weighted land fraction in main beam
units: %
scale_factor: 0.01000000000000000
coordinates: lon lat
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
rad_land_frac_238: Grid
_FillValue: 32767
long_name: radiometer 23.8 GHz antenna gain weighted land fraction in main beam
units: %
scale_factor: 0.01000000000000000
coordinates: lon lat
rad_land_frac_238: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: radiometer 23.8 GHz antenna gain weighted land fraction in main beam
units: %
scale_factor: 0.01000000000000000
coordinates: lon lat
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
rad_land_frac_340: Grid
_FillValue: 32767
long_name: radiometer 34.0 GHz antenna gain weighted land fraction in main beam
units: %
scale_factor: 0.01000000000000000
coordinates: lon lat
rad_land_frac_340: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: radiometer 34.0 GHz antenna gain weighted land fraction in main beam
units: %
scale_factor: 0.01000000000000000
coordinates: lon lat
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
alt_state_flag_oper: Grid
_FillValue: 127
long_name: altimeter state flag: altimeter operating
flag_values: 0, 1
flag_meanings: SideA SideB
coordinates: lon lat
comment: Side A = nominal; Side B = redondancy
alt_state_flag_oper: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: altimeter state flag: altimeter operating
flag_values: 0, 1
flag_meanings: SideA SideB
coordinates: lon lat
comment: Side A = nominal; Side B = redondancy
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
alt_state_flag_c_band: Grid
_FillValue: 127
long_name: altimeter state flag: C bandwidth used
flag_values: 0, 1
flag_meanings: 320MHz 100MHz
coordinates: lon lat
alt_state_flag_c_band: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: altimeter state flag: C bandwidth used
flag_values: 0, 1
flag_meanings: 320MHz 100MHz
coordinates: lon lat
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
alt_state_flag_band_seq: Grid
_FillValue: 127
long_name: altimeter state flag: Ku/C band sequencing
flag_values: 0, 1
flag_meanings: 3Ku_1C_3Ku 2Ku_1C_2Ku
coordinates: lon lat
alt_state_flag_band_seq: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: altimeter state flag: Ku/C band sequencing
flag_values: 0, 1
flag_meanings: 3Ku_1C_3Ku 2Ku_1C_2Ku
coordinates: lon lat
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
alt_state_flag_ku_band_status: Grid
_FillValue: 127
long_name: altimeter state flag: Ku band status
flag_values: 0, 1
flag_meanings: On Off
coordinates: lon lat
alt_state_flag_ku_band_status: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: altimeter state flag: Ku band status
flag_values: 0, 1
flag_meanings: On Off
coordinates: lon lat
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
alt_state_flag_c_band_status: Grid
_FillValue: 127
long_name: altimeter state flag: C band status
flag_values: 0, 1
flag_meanings: On Off
coordinates: lon lat
alt_state_flag_c_band_status: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: altimeter state flag: C band status
flag_values: 0, 1
flag_meanings: On Off
coordinates: lon lat
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
rad_state_flag_oper: Grid
_FillValue: 127
long_name: radiometer state flag: radiometer operating
flag_values: 0, 1
flag_meanings: Side A Side B
coordinates: lon lat
comment: Side A nominal; Side B redundancy
rad_state_flag_oper: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: radiometer state flag: radiometer operating
flag_values: 0, 1
flag_meanings: Side A Side B
coordinates: lon lat
comment: Side A nominal; Side B redundancy
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
orb_state_flag_rest: Grid
_FillValue: 127
long_name: orbit state flag: restituted orbit
flag_values: 0, 1, 2, 3, 4, 5, 6, 7, 8, 9
flag_meanings: op_maneuver op_adjusted op_extrapolated pre_adjusted pre_maneuver pre_interpolated_gap pre_extrapolated_L1 pre_extrapolated_L1S2 pre_extrapolated_S2 DIODE
coordinates: lon lat
comment: 0 characterizes a mission operations orbit that is computed during a maneuver period, 1 stands for an adjusted mission operations orbit, 2 stands for an extrapolated mission operations orbit, 3 stands for an adjusted (preliminary/precise) orbit, 4 indicates that the (preliminary/precise) orbit is estimated during a maneuver period, 5 indicates that the (preliminary/precise) orbit is interpolated over a tracking data gap, 6 means that the (preliminary/precise) orbit is extrapolated for a duration less than 1 day, 7 means that the (preliminary/precise) orbit is extrapolated for a duration that ranges from 1 day to 2 days, 8 means that the (preliminary/precise) orbit is extrapolated for a duration larger than 2 days, or that the orbit is extrapolated just after a maneuver, 9 stands for the DORIS DIODE navigator orbit. The nominal value is 3
orb_state_flag_rest: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: orbit state flag: restituted orbit
flag_values: 0, 1, 2, 3, 4, 5, 6, 7, 8, 9
flag_meanings: op_maneuver op_adjusted op_extrapolated pre_adjusted pre_maneuver pre_interpolated_gap pre_extrapolated_L1 pre_extrapolated_L1S2 pre_extrapolated_S2 DIODE
coordinates: lon lat
comment: 0 characterizes a mission operations orbit that is computed during a maneuver period, 1 stands for an adjusted mission operations orbit, 2 stands for an extrapolated mission operations orbit, 3 stands for an adjusted (preliminary/precise) orbit, 4 indicates that the (preliminary/precise) orbit is estimated during a maneuver period, 5 indicates that the (preliminary/precise) orbit is interpolated over a tracking data gap, 6 means that the (preliminary/precise) orbit is extrapolated for a duration less than 1 day, 7 means that the (preliminary/precise) orbit is extrapolated for a duration that ranges from 1 day to 2 days, 8 means that the (preliminary/precise) orbit is extrapolated for a duration larger than 2 days, or that the orbit is extrapolated just after a maneuver, 9 stands for the DORIS DIODE navigator orbit. The nominal value is 3
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
rain_flag: Grid
_FillValue: 127
long_name: rain flag
flag_values: 0, 1
flag_meanings: no_rain rain
coordinates: lon lat
comment: See Jason-1 User Handbook
rain_flag: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: rain flag
flag_values: 0, 1
flag_meanings: no_rain rain
coordinates: lon lat
comment: See Jason-1 User Handbook
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
rad_rain_flag: Grid
_FillValue: 127
long_name: radiometer rain flag
flag_values: 0, 1
flag_meanings: no_rain rain
coordinates: lon lat
comment: See Jason-1 User Handbook. The radiometer rain flag indicates where the radiometer wet troposphere path delay (rad_wet_tropo_corr) is invalid due to rain contamination
rad_rain_flag: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: radiometer rain flag
flag_values: 0, 1
flag_meanings: no_rain rain
coordinates: lon lat
comment: See Jason-1 User Handbook. The radiometer rain flag indicates where the radiometer wet troposphere path delay (rad_wet_tropo_corr) is invalid due to rain contamination
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
ice_flag: Grid
_FillValue: 127
long_name: ice flag
flag_values: 0, 1
flag_meanings: no_ice ice
coordinates: lon lat
comment: See Jason-1 User Handbook
ice_flag: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: ice flag
flag_values: 0, 1
flag_meanings: no_ice ice
coordinates: lon lat
comment: See Jason-1 User Handbook
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
rad_sea_ice_flag: Grid
_FillValue: 127
long_name: radiometer sea-ice flag
flag_values: 0, 1
flag_meanings: no_sea_ice, sea_ice
coordinates: lon lat
comment: See Jason-1 User Handbook. The radiometer sea ice flag indicates where the radiometer wet troposphere path delay (rad_wet_tropo_corr) is invalid due to sea ice contamination
rad_sea_ice_flag: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: radiometer sea-ice flag
flag_values: 0, 1
flag_meanings: no_sea_ice, sea_ice
coordinates: lon lat
comment: See Jason-1 User Handbook. The radiometer sea ice flag indicates where the radiometer wet troposphere path delay (rad_wet_tropo_corr) is invalid due to sea ice contamination
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
interp_flag_tb: Grid
_FillValue: 127
long_name: radiometer brightness temperatures interpolation flag
flag_values: 0, 1, 2, 3
flag_meanings: good interpolation_with_gap extrapolation fail
coordinates: lon lat
comment: Possible values are: 0 interpolation without gap between JMR data, 1 interpolation with gap between JMR data, 2 extrapolation of JMR data, 3 failure of extrapolation and interpolation
interp_flag_tb: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: radiometer brightness temperatures interpolation flag
flag_values: 0, 1, 2, 3
flag_meanings: good interpolation_with_gap extrapolation fail
coordinates: lon lat
comment: Possible values are: 0 interpolation without gap between JMR data, 1 interpolation with gap between JMR data, 2 extrapolation of JMR data, 3 failure of extrapolation and interpolation
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
interp_flag_ocean_tide_sol1: Grid
_FillValue: 127
long_name: ocean tide solution 1 interpolation flag
flag_values: 0b, 1b
flag_meanings: good bad
coordinates: lon lat
comment: 0 = valid interpolation; 1 = failure of interpolation i.e. ocean_tide_sol1 set to default value
interp_flag_ocean_tide_sol1: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: ocean tide solution 1 interpolation flag
flag_values: 0b, 1b
flag_meanings: good bad
coordinates: lon lat
comment: 0 = valid interpolation; 1 = failure of interpolation i.e. ocean_tide_sol1 set to default value
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
interp_flag_ocean_tide_sol2: Grid
_FillValue: 127
long_name: ocean tide solution 2 interpolation flag
flag_values: 0b, 1b
flag_meanings: good bad
coordinates: lon lat
comment: 0 = valid interpolation; 1 = failure of interpolation i.e. ocean_tide_sol2 set to default value
interp_flag_ocean_tide_sol2: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: ocean tide solution 2 interpolation flag
flag_values: 0b, 1b
flag_meanings: good bad
coordinates: lon lat
comment: 0 = valid interpolation; 1 = failure of interpolation i.e. ocean_tide_sol2 set to default value
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
alt: Grid
_FillValue: 2147483647
long_name: 1 Hz altitude of satellite
standard_name: height_above_reference_ellipsoid
units: m
quality_flag: orb_state_flag_rest
add_offset: 1300000.000000000
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: Altitude of satellite above the reference ellipsoid.
alt: Array of 32 bit Integers [time = 0..3062]
_FillValue: 2147483647
long_name: 1 Hz altitude of satellite
standard_name: height_above_reference_ellipsoid
units: m
quality_flag: orb_state_flag_rest
add_offset: 1300000.000000000
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: Altitude of satellite above the reference ellipsoid.
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
alt_20hz: Grid
_FillValue: 2147483647
long_name: 20 Hz altitude of satellite
standard_name: height_above_reference_ellipsoid
units: m
add_offset: 1300000.000000000
scale_factor: 0.0001000000000000000
coordinates: lon_20hz lat_20hz
comment: Altitude of satellite above reference ellipsoid
alt_20hz: Array of 32 bit Integers [time = 0..3062][meas_ind = 0..19]
_FillValue: 2147483647
long_name: 20 Hz altitude of satellite
standard_name: height_above_reference_ellipsoid
units: m
add_offset: 1300000.000000000
scale_factor: 0.0001000000000000000
coordinates: lon_20hz lat_20hz
comment: Altitude of satellite above reference ellipsoid
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
meas_ind: Array of 16 bit Integers [meas_ind = 0..19]
long_name: elementary measurement index
units: count
comment: Set to be compliant with the CF-1.1 convention
orb_alt_rate: Grid
_FillValue: 32767
long_name: 1 Hz orbital altitude rate
units: m/s
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: The reference surface for the orbital altitude rate is the combined mean_sea_surface/geoid surface. It is used to compute the Doppler correction on the altimeter range (doppler_corr_ku, doppler_corr_c)
orb_alt_rate: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: 1 Hz orbital altitude rate
units: m/s
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: The reference surface for the orbital altitude rate is the combined mean_sea_surface/geoid surface. It is used to compute the Doppler correction on the altimeter range (doppler_corr_ku, doppler_corr_c)
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
range_ku: Grid
_FillValue: 2147483647
long_name: 1 Hz Ku band corrected altimeter range
standard_name: altimeter_range
units: m
quality_flag: qual_alt_1hz_range_ku
add_offset: 1300000.000000000
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: All instrumental corrections included, i.e. distance antenna-COG (cog_corr), USO drift correction (uso_corr), internal path correction (internal_path_delay_corr_ku), Doppler correction (doppler_corr_ku), modeled instrumental errors correction (modeled_instr_corr_range_ku) and system bias. range updated to account for reference plane and internal path delay
range_ku: Array of 32 bit Integers [time = 0..3062]
_FillValue: 2147483647
long_name: 1 Hz Ku band corrected altimeter range
standard_name: altimeter_range
units: m
quality_flag: qual_alt_1hz_range_ku
add_offset: 1300000.000000000
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: All instrumental corrections included, i.e. distance antenna-COG (cog_corr), USO drift correction (uso_corr), internal path correction (internal_path_delay_corr_ku), Doppler correction (doppler_corr_ku), modeled instrumental errors correction (modeled_instr_corr_range_ku) and system bias. range updated to account for reference plane and internal path delay
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
range_20hz_ku: Grid
_FillValue: 2147483647
long_name: 20 Hz Ku band corrected altimeter range
standard_name: altimeter_range
units: m
add_offset: 1300000.000000000
scale_factor: 0.0001000000000000000
coordinates: lon_20hz lat_20hz
comment: All instrumental corrections included, i.e. distance antenna-COG (cog_corr), USO drift correction (uso_corr), internal path correction (internal_path_delay_corr_ku), Doppler correction (doppler_corr_ku), modeled instrumental errors correction (modeled_instr_corr_range_ku) and system bias. range_20hz updated to account for reference plane and internal path delay
range_20hz_ku: Array of 32 bit Integers [time = 0..3062][meas_ind = 0..19]
_FillValue: 2147483647
long_name: 20 Hz Ku band corrected altimeter range
standard_name: altimeter_range
units: m
add_offset: 1300000.000000000
scale_factor: 0.0001000000000000000
coordinates: lon_20hz lat_20hz
comment: All instrumental corrections included, i.e. distance antenna-COG (cog_corr), USO drift correction (uso_corr), internal path correction (internal_path_delay_corr_ku), Doppler correction (doppler_corr_ku), modeled instrumental errors correction (modeled_instr_corr_range_ku) and system bias. range_20hz updated to account for reference plane and internal path delay
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
meas_ind: Array of 16 bit Integers [meas_ind = 0..19]
long_name: elementary measurement index
units: count
comment: Set to be compliant with the CF-1.1 convention
range_c: Grid
_FillValue: 2147483647
long_name: 1 Hz C band corrected altimeter range
standard_name: altimeter_range
units: m
quality_flag: qual_alt_1hz_range_c
add_offset: 1300000.000000000
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: All instrumental corrections included, i.e. distance antenna-COG (cog_corr), USO drift correction (uso_corr), internal path correction (internal_path_delay_corr_c), Doppler correction (doppler_corr_c), modeled instrumental errors correction (modeled_instr_corr_range_c) and system bias. range_c updated to account for reference plane and internal path delay
range_c: Array of 32 bit Integers [time = 0..3062]
_FillValue: 2147483647
long_name: 1 Hz C band corrected altimeter range
standard_name: altimeter_range
units: m
quality_flag: qual_alt_1hz_range_c
add_offset: 1300000.000000000
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: All instrumental corrections included, i.e. distance antenna-COG (cog_corr), USO drift correction (uso_corr), internal path correction (internal_path_delay_corr_c), Doppler correction (doppler_corr_c), modeled instrumental errors correction (modeled_instr_corr_range_c) and system bias. range_c updated to account for reference plane and internal path delay
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
range_20hz_c: Grid
_FillValue: 2147483647
long_name: 20 Hz C band corrected altimeter range
standard_name: altimeter_range
units: m
add_offset: 1300000.000000000
scale_factor: 0.0001000000000000000
coordinates: lon_20hz lat_20hz
comment: All instrumental corrections included, i.e. distance antenna-COG (cog_corr), USO drift correction (uso_corr), internal path correction (internal_path_delay_corr_c), Doppler correction (doppler_corr_c), modeled instrumental errors correction (modeled_instr_corr_range_c) and system bias. range_20hz_c updated to account for reference plane and internal path delay
range_20hz_c: Array of 32 bit Integers [time = 0..3062][meas_ind = 0..19]
_FillValue: 2147483647
long_name: 20 Hz C band corrected altimeter range
standard_name: altimeter_range
units: m
add_offset: 1300000.000000000
scale_factor: 0.0001000000000000000
coordinates: lon_20hz lat_20hz
comment: All instrumental corrections included, i.e. distance antenna-COG (cog_corr), USO drift correction (uso_corr), internal path correction (internal_path_delay_corr_c), Doppler correction (doppler_corr_c), modeled instrumental errors correction (modeled_instr_corr_range_c) and system bias. range_20hz_c updated to account for reference plane and internal path delay
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
meas_ind: Array of 16 bit Integers [meas_ind = 0..19]
long_name: elementary measurement index
units: count
comment: Set to be compliant with the CF-1.1 convention
range_used_20hz_ku: Grid
_FillValue: 127
long_name: 20 Hz flag for utilization in the computation of 1Hz Ku band range
flag_values: 0, 1
flag_meanings: yes no
coordinates: lon_20hz lat_20hz
comment: Map of valid points used to compute the 1-Hz Ku-band altimeter range
range_used_20hz_ku: Array of 16 bit Integers [time = 0..3062][meas_ind = 0..19]
_FillValue: 127
long_name: 20 Hz flag for utilization in the computation of 1Hz Ku band range
flag_values: 0, 1
flag_meanings: yes no
coordinates: lon_20hz lat_20hz
comment: Map of valid points used to compute the 1-Hz Ku-band altimeter range
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
meas_ind: Array of 16 bit Integers [meas_ind = 0..19]
long_name: elementary measurement index
units: count
comment: Set to be compliant with the CF-1.1 convention
range_used_20hz_c: Grid
_FillValue: 127
long_name: 20 Hz flag for utilization in the computation of 1Hz C band range
flag_values: 0, 1
flag_meanings: yes no
coordinates: lon_20hz lat_20hz
comment: Map of valid points used to compute the 1-Hz C-band altimeter range
range_used_20hz_c: Array of 16 bit Integers [time = 0..3062][meas_ind = 0..19]
_FillValue: 127
long_name: 20 Hz flag for utilization in the computation of 1Hz C band range
flag_values: 0, 1
flag_meanings: yes no
coordinates: lon_20hz lat_20hz
comment: Map of valid points used to compute the 1-Hz C-band altimeter range
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
meas_ind: Array of 16 bit Integers [meas_ind = 0..19]
long_name: elementary measurement index
units: count
comment: Set to be compliant with the CF-1.1 convention
range_rms_ku: Grid
_FillValue: 32767
long_name: RMS of the Ku band range
units: m
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: Compression of Ku-band high rate elements is preceded by a detection of outliers. Only valid high-rate values are used to compute this element
range_rms_ku: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: RMS of the Ku band range
units: m
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: Compression of Ku-band high rate elements is preceded by a detection of outliers. Only valid high-rate values are used to compute this element
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
range_rms_c: Grid
_FillValue: 32767
long_name: RMS of the C band range
units: m
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: Compression of C-band high rate elements is preceded by a detection of outliers. Only valid high-rate values are used to compute this element
range_rms_c: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: RMS of the C band range
units: m
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: Compression of C-band high rate elements is preceded by a detection of outliers. Only valid high-rate values are used to compute this element
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
range_numval_ku: Grid
_FillValue: 127
long_name: number of valid points for Ku band range
units: count
valid_min: 0
valid_max: 20
coordinates: lon lat
range_numval_ku: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: number of valid points for Ku band range
units: count
valid_min: 0
valid_max: 20
coordinates: lon lat
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
range_numval_c: Grid
_FillValue: 127
long_name: number of valid points for C band range
units: count
valid_min: 0
valid_max: 20
coordinates: lon lat
range_numval_c: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: number of valid points for C band range
units: count
valid_min: 0
valid_max: 20
coordinates: lon lat
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
number_of_iterations_ku: Grid
_FillValue: 127
long_name: 20 Hz number of iterations of the ocean retracking in Ku band
units: count
coordinates: lon_20hz lat_20hz
number_of_iterations_ku: Array of 16 bit Integers [time = 0..3062][meas_ind = 0..19]
_FillValue: 127
long_name: 20 Hz number of iterations of the ocean retracking in Ku band
units: count
coordinates: lon_20hz lat_20hz
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
meas_ind: Array of 16 bit Integers [meas_ind = 0..19]
long_name: elementary measurement index
units: count
comment: Set to be compliant with the CF-1.1 convention
number_of_iterations_c: Grid
_FillValue: 127
long_name: 20 Hz number of iterations of the ocean retracking in C band
units: count
coordinates: lon_20hz lat_20hz
number_of_iterations_c: Array of 16 bit Integers [time = 0..3062][meas_ind = 0..19]
_FillValue: 127
long_name: 20 Hz number of iterations of the ocean retracking in C band
units: count
coordinates: lon_20hz lat_20hz
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
meas_ind: Array of 16 bit Integers [meas_ind = 0..19]
long_name: elementary measurement index
units: count
comment: Set to be compliant with the CF-1.1 convention
net_instr_corr_range_ku: Grid
_FillValue: 2147483647
long_name: net instrumental correction on the Ku band range
units: m
quality_flag: qual_inst_corr_1hz_range_ku
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: Sum of distance antenna-COG (cog_corr), USO drift correction (uso_corr), internal path correction (internal_path_delay_corr_ku), Doppler correction (doppler_corr_ku), modeled instrumental errors correction (modeled_instr_corr_range_ku) and system bias. Updated to account for reference plane and internal path delay
net_instr_corr_range_ku: Array of 32 bit Integers [time = 0..3062]
_FillValue: 2147483647
long_name: net instrumental correction on the Ku band range
units: m
quality_flag: qual_inst_corr_1hz_range_ku
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: Sum of distance antenna-COG (cog_corr), USO drift correction (uso_corr), internal path correction (internal_path_delay_corr_ku), Doppler correction (doppler_corr_ku), modeled instrumental errors correction (modeled_instr_corr_range_ku) and system bias. Updated to account for reference plane and internal path delay
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
net_instr_corr_range_c: Grid
_FillValue: 2147483647
long_name: net instrumental correction on the C band range
units: m
quality_flag: qual_inst_corr_1hz_range_c
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: Sum of distance antenna-COG (cog_corr), USO drift correction (uso_corr), internal path correction (internal_path_delay_corr_c), Doppler correction (doppler_corr_c), modeled instrumental errors correction (modeled_instr_corr_range_c) and system bias. Updated to account for reference plane and internal path delay
net_instr_corr_range_c: Array of 32 bit Integers [time = 0..3062]
_FillValue: 2147483647
long_name: net instrumental correction on the C band range
units: m
quality_flag: qual_inst_corr_1hz_range_c
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: Sum of distance antenna-COG (cog_corr), USO drift correction (uso_corr), internal path correction (internal_path_delay_corr_c), Doppler correction (doppler_corr_c), modeled instrumental errors correction (modeled_instr_corr_range_c) and system bias. Updated to account for reference plane and internal path delay
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
model_dry_tropo_corr: Grid
_FillValue: 32767
long_name: model dry tropospheric correction
standard_name: altimeter_range_correction_due_to_dry_troposphere
source: European Center for Medium Range Weather Forecasting
institution: ECMWF
units: m
quality_flag:
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: Computed at the altimeter time-tag from the interpolation of 2 meteorological fields that surround the altimeter time-tag. A dry tropospheric correction must be added (negative value) to the instrument range to correct this range measurement for dry tropospheric range delays of the radar pulse. See Jason-1 User Handbook
model_dry_tropo_corr: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: model dry tropospheric correction
standard_name: altimeter_range_correction_due_to_dry_troposphere
source: European Center for Medium Range Weather Forecasting
institution: ECMWF
units: m
quality_flag:
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: Computed at the altimeter time-tag from the interpolation of 2 meteorological fields that surround the altimeter time-tag. A dry tropospheric correction must be added (negative value) to the instrument range to correct this range measurement for dry tropospheric range delays of the radar pulse. See Jason-1 User Handbook
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
model_dry_tropo_corr_era: Grid
_FillValue: 32767
long_name: model dry tropospheric correction from ERA_Interim products
standard_name: altimeter_range_correction_due_to_dry_troposphere
source: European Center for Medium Range Weather Forecasting
institution: ECMWF
units: m
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: Courtesy of ECMWF as provider of met data for the atmospheric corrections. Computed at the altimeter time-tag from the interpolation of 2 ERA meteorological fields that surround the altimeter time-tag. A dry tropospheric correction must be added (negative value) to the instrument range to correct this range measurement for dry tropospheric range delays of the radar pulse. See Jason-1 User Handbook
model_dry_tropo_corr_era: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: model dry tropospheric correction from ERA_Interim products
standard_name: altimeter_range_correction_due_to_dry_troposphere
source: European Center for Medium Range Weather Forecasting
institution: ECMWF
units: m
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: Courtesy of ECMWF as provider of met data for the atmospheric corrections. Computed at the altimeter time-tag from the interpolation of 2 ERA meteorological fields that surround the altimeter time-tag. A dry tropospheric correction must be added (negative value) to the instrument range to correct this range measurement for dry tropospheric range delays of the radar pulse. See Jason-1 User Handbook
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
model_wet_tropo_corr: Grid
_FillValue: 32767
long_name: model wet tropospheric correction
standard_name: altimeter_range_correction_due_to_wet_troposphere
source: European Center for Medium Range Weather Forecasting
institution: ECMWF
units: m
quality_flag:
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: Computed at the altimeter time-tag from the interpolation of 2 meteorological fields that surround the altimeter time-tag. A wet tropospheric correction must be added (negative value) to the instrument range to correct this range measurement for wet tropospheric range delays of the radar pulse. See Jason-1 User Handbook
model_wet_tropo_corr: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: model wet tropospheric correction
standard_name: altimeter_range_correction_due_to_wet_troposphere
source: European Center for Medium Range Weather Forecasting
institution: ECMWF
units: m
quality_flag:
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: Computed at the altimeter time-tag from the interpolation of 2 meteorological fields that surround the altimeter time-tag. A wet tropospheric correction must be added (negative value) to the instrument range to correct this range measurement for wet tropospheric range delays of the radar pulse. See Jason-1 User Handbook
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
model_wet_tropo_corr_era: Grid
_FillValue: 32767
long_name: model wet tropospheric correction from ERA_Interim products
standard_name: altimeter_range_correction_due_to_wet_troposphere
source: European Center for Medium Range Weather Forecasting
institution: ECMWF
units: m
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: Courtesy of ECMWF as provider of met data for the atmospheric corrections. Computed at the altimeter time-tag from the interpolation of 2 ERA meteorological fields that surround the altimeter time-tag. A wet tropospheric correction must be added (negative value) to the instrument range to correct this range measurement for wet tropospheric range delays of the radar pulse. See Jason-1 User Handbook
model_wet_tropo_corr_era: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: model wet tropospheric correction from ERA_Interim products
standard_name: altimeter_range_correction_due_to_wet_troposphere
source: European Center for Medium Range Weather Forecasting
institution: ECMWF
units: m
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: Courtesy of ECMWF as provider of met data for the atmospheric corrections. Computed at the altimeter time-tag from the interpolation of 2 ERA meteorological fields that surround the altimeter time-tag. A wet tropospheric correction must be added (negative value) to the instrument range to correct this range measurement for wet tropospheric range delays of the radar pulse. See Jason-1 User Handbook
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
rad_wet_tropo_corr: Grid
_FillValue: 32767
long_name: radiometer wet tropospheric correction
standard_name: altimeter_range_correction_due_to_wet_troposphere
source: JMR
institution: NASA/JPL
units: m
quality_flag: qual_rad_1hz_tb187 and qual_rad_1hz_tb238 and qual_rad_1hz_tb340 and interp_flag_tb
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: A wet tropospheric correction must be added (negative value) to the instrument range to correct this range measurement for wet tropospheric range delays of the radar pulse
rad_wet_tropo_corr: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: radiometer wet tropospheric correction
standard_name: altimeter_range_correction_due_to_wet_troposphere
source: JMR
institution: NASA/JPL
units: m
quality_flag: qual_rad_1hz_tb187 and qual_rad_1hz_tb238 and qual_rad_1hz_tb340 and interp_flag_tb
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: A wet tropospheric correction must be added (negative value) to the instrument range to correct this range measurement for wet tropospheric range delays of the radar pulse
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
iono_corr_alt_ku: Grid
_FillValue: 32767
long_name: altimeter ionospheric correction on Ku band
standard_name: altimeter_range_correction_due_to_ionosphere
source: Poseidon-2
institution: CNES
units: m
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: An ionospheric correction must be added (negative value) to the instrument range to correct this range measurement for ionospheric range delays of the radar pulse. See Jason-1 User Handbook
iono_corr_alt_ku: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: altimeter ionospheric correction on Ku band
standard_name: altimeter_range_correction_due_to_ionosphere
source: Poseidon-2
institution: CNES
units: m
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: An ionospheric correction must be added (negative value) to the instrument range to correct this range measurement for ionospheric range delays of the radar pulse. See Jason-1 User Handbook
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
iono_corr_gim_ku: Grid
_FillValue: 32767
long_name: GIM ionospheric correction on Ku band
standard_name: altimeter_range_correction_due_to_ionosphere
institution: NASA/JPL
units: m
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: An ionospheric correction must be added (negative value) to the instrument range to correct this range measurement for ionospheric range delays of the radar pulse. See Jason-1 User Handbook
iono_corr_gim_ku: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: GIM ionospheric correction on Ku band
standard_name: altimeter_range_correction_due_to_ionosphere
institution: NASA/JPL
units: m
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: An ionospheric correction must be added (negative value) to the instrument range to correct this range measurement for ionospheric range delays of the radar pulse. See Jason-1 User Handbook
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
sea_state_bias_ku: Grid
_FillValue: 32767
long_name: sea state bias correction in Ku band
standard_name: sea_surface_height_bias_due_to_sea_surface_roughness
source: Empirical solution fitted to Jason-1 GDR-C data. Computed using updated values of sigma0 (atmospheric correction being updated)
institution: CNES
units: m
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: Computed using wind speed from sigma0 using updated atmospheric attenuation values. A sea state bias correction must be added (negative value) to the instrument range to correct this range measurement for sea state delays of the radar pulse. This element should not be used over land. See Jason-1 User Handbook
sea_state_bias_ku: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: sea state bias correction in Ku band
standard_name: sea_surface_height_bias_due_to_sea_surface_roughness
source: Empirical solution fitted to Jason-1 GDR-C data. Computed using updated values of sigma0 (atmospheric correction being updated)
institution: CNES
units: m
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: Computed using wind speed from sigma0 using updated atmospheric attenuation values. A sea state bias correction must be added (negative value) to the instrument range to correct this range measurement for sea state delays of the radar pulse. This element should not be used over land. See Jason-1 User Handbook
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
sea_state_bias_c: Grid
_FillValue: 32767
long_name: sea state bias correction in C band
standard_name: sea_surface_height_bias_due_to_sea_surface_roughness
source: Empirical solution fitted to Jason-1 GDR-C data. Computed using updated values of sigma0 (atmospheric correction being updated)
institution: CNES
units: m
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: Computed using wind speed from sigma0 using updated atmospheric attenuation values. A sea state bias correction must be added (negative value) to the instrument range to correct this range measurement for sea state delays of the radar pulse. This element should not be used over land. See Jason-1 User Handbook
sea_state_bias_c: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: sea state bias correction in C band
standard_name: sea_surface_height_bias_due_to_sea_surface_roughness
source: Empirical solution fitted to Jason-1 GDR-C data. Computed using updated values of sigma0 (atmospheric correction being updated)
institution: CNES
units: m
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: Computed using wind speed from sigma0 using updated atmospheric attenuation values. A sea state bias correction must be added (negative value) to the instrument range to correct this range measurement for sea state delays of the radar pulse. This element should not be used over land. See Jason-1 User Handbook
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
swh_ku: Grid
_FillValue: 32767
long_name: Ku band corrected significant waveheight
standard_name: sea_surface_wave_significant_height
units: m
quality_flag: qual_alt_1hz_swh_ku
scale_factor: 0.001000000000000000
coordinates: lon lat
comment: All instrumental corrections included, i.e. modeled instrumental errors correction (modeled_instr_corr_swh_ku) and system bias
swh_ku: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: Ku band corrected significant waveheight
standard_name: sea_surface_wave_significant_height
units: m
quality_flag: qual_alt_1hz_swh_ku
scale_factor: 0.001000000000000000
coordinates: lon lat
comment: All instrumental corrections included, i.e. modeled instrumental errors correction (modeled_instr_corr_swh_ku) and system bias
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
swh_20hz_ku: Grid
_FillValue: 32767
long_name: 20 Hz Ku band corrected significant waveheight
standard_name: sea_surface_wave_significant_height
units: m
scale_factor: 0.001000000000000000
coordinates: lon_20hz lat_20hz
comment: All instrumental corrections included, i.e. modeled instrumental errors correction (modeled_instr_corr_swh_ku) and system bias
swh_20hz_ku: Array of 16 bit Integers [time = 0..3062][meas_ind = 0..19]
_FillValue: 32767
long_name: 20 Hz Ku band corrected significant waveheight
standard_name: sea_surface_wave_significant_height
units: m
scale_factor: 0.001000000000000000
coordinates: lon_20hz lat_20hz
comment: All instrumental corrections included, i.e. modeled instrumental errors correction (modeled_instr_corr_swh_ku) and system bias
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
meas_ind: Array of 16 bit Integers [meas_ind = 0..19]
long_name: elementary measurement index
units: count
comment: Set to be compliant with the CF-1.1 convention
swh_c: Grid
_FillValue: 32767
long_name: C band corrected significant waveheight
standard_name: sea_surface_wave_significant_height
units: m
quality_flag: qual_alt_1hz_swh_c
scale_factor: 0.001000000000000000
coordinates: lon lat
comment: All instrumental corrections included, i.e. modeled instrumental errors correction (modeled_instr_corr_swh_c) and system bias
swh_c: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: C band corrected significant waveheight
standard_name: sea_surface_wave_significant_height
units: m
quality_flag: qual_alt_1hz_swh_c
scale_factor: 0.001000000000000000
coordinates: lon lat
comment: All instrumental corrections included, i.e. modeled instrumental errors correction (modeled_instr_corr_swh_c) and system bias
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
swh_20hz_c: Grid
_FillValue: 32767
long_name: 20 Hz C band corrected significant waveheight
standard_name: sea_surface_wave_significant_height
units: m
scale_factor: 0.001000000000000000
coordinates: lon_20hz lat_20hz
comment: All instrumental corrections included, i.e. modeled instrumental errors correction (modeled_instr_corr_swh_c) and system bias
swh_20hz_c: Array of 16 bit Integers [time = 0..3062][meas_ind = 0..19]
_FillValue: 32767
long_name: 20 Hz C band corrected significant waveheight
standard_name: sea_surface_wave_significant_height
units: m
scale_factor: 0.001000000000000000
coordinates: lon_20hz lat_20hz
comment: All instrumental corrections included, i.e. modeled instrumental errors correction (modeled_instr_corr_swh_c) and system bias
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
meas_ind: Array of 16 bit Integers [meas_ind = 0..19]
long_name: elementary measurement index
units: count
comment: Set to be compliant with the CF-1.1 convention
swh_used_20hz_ku: Grid
_FillValue: 127
long_name: 20 Hz flag for utilization in the computation of 1Hz Ku band significant waveheight
flag_values: 0, 1
flag_meanings: yes no
coordinates: lon_20hz lat_20hz
comment: Map of valid points used to compute the 1-Hz Ku-band significant waveheight
swh_used_20hz_ku: Array of 16 bit Integers [time = 0..3062][meas_ind = 0..19]
_FillValue: 127
long_name: 20 Hz flag for utilization in the computation of 1Hz Ku band significant waveheight
flag_values: 0, 1
flag_meanings: yes no
coordinates: lon_20hz lat_20hz
comment: Map of valid points used to compute the 1-Hz Ku-band significant waveheight
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
meas_ind: Array of 16 bit Integers [meas_ind = 0..19]
long_name: elementary measurement index
units: count
comment: Set to be compliant with the CF-1.1 convention
swh_used_20hz_c: Grid
_FillValue: 127
long_name: 20 Hz flag for utilization in the computation of 1Hz C band significant waveheight
flag_values: 0, 1
flag_meanings: yes no
coordinates: lon_20hz lat_20hz
comment: Map of valid points used to compute the 1-Hz C-band significant waveheight
swh_used_20hz_c: Array of 16 bit Integers [time = 0..3062][meas_ind = 0..19]
_FillValue: 127
long_name: 20 Hz flag for utilization in the computation of 1Hz C band significant waveheight
flag_values: 0, 1
flag_meanings: yes no
coordinates: lon_20hz lat_20hz
comment: Map of valid points used to compute the 1-Hz C-band significant waveheight
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
meas_ind: Array of 16 bit Integers [meas_ind = 0..19]
long_name: elementary measurement index
units: count
comment: Set to be compliant with the CF-1.1 convention
swh_rms_ku: Grid
_FillValue: 32767
long_name: RMS of the Ku band significant waveheight
units: m
scale_factor: 0.001000000000000000
coordinates: lon lat
comment: Compression of Ku-band high rate elements is preceded by a detection of outliers. Only valid high-rate values are used to compute this element
swh_rms_ku: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: RMS of the Ku band significant waveheight
units: m
scale_factor: 0.001000000000000000
coordinates: lon lat
comment: Compression of Ku-band high rate elements is preceded by a detection of outliers. Only valid high-rate values are used to compute this element
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
swh_rms_c: Grid
_FillValue: 32767
long_name: RMS of the C band significant waveheight
units: m
scale_factor: 0.001000000000000000
coordinates: lon lat
comment: Compression of C-band high rate elements is preceded by a detection of outliers. Only valid high-rate values are used to compute this element
swh_rms_c: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: RMS of the C band significant waveheight
units: m
scale_factor: 0.001000000000000000
coordinates: lon lat
comment: Compression of C-band high rate elements is preceded by a detection of outliers. Only valid high-rate values are used to compute this element
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
swh_numval_ku: Grid
_FillValue: 127
long_name: number of valid points used to compute Ku significant waveheight
units: count
valid_min: 0
valid_max: 20
coordinates: lon lat
swh_numval_ku: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: number of valid points used to compute Ku significant waveheight
units: count
valid_min: 0
valid_max: 20
coordinates: lon lat
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
swh_numval_c: Grid
_FillValue: 127
long_name: number of valid points used to compute C significant waveheight
units: count
valid_min: 0
valid_max: 20
coordinates: lon lat
swh_numval_c: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: number of valid points used to compute C significant waveheight
units: count
valid_min: 0
valid_max: 20
coordinates: lon lat
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
net_instr_corr_swh_ku: Grid
_FillValue: 32767
long_name: net instrumental correction on Ku band significant waveheight
units: m
quality_flag: qual_inst_corr_1hz_swh_ku
scale_factor: 0.001000000000000000
coordinates: lon lat
comment: Sum of modeled instrumental errors correction (modeled_instr_corr_swh_ku) and system bias
net_instr_corr_swh_ku: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: net instrumental correction on Ku band significant waveheight
units: m
quality_flag: qual_inst_corr_1hz_swh_ku
scale_factor: 0.001000000000000000
coordinates: lon lat
comment: Sum of modeled instrumental errors correction (modeled_instr_corr_swh_ku) and system bias
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
net_instr_corr_swh_c: Grid
_FillValue: 32767
long_name: net instrumental correction on C band significant waveheight
units: m
quality_flag: qual_inst_corr_1hz_swh_c
scale_factor: 0.001000000000000000
coordinates: lon lat
comment: Sum of modeled instrumental errors correction (modeled_instr_corr_swh_c) and system bias
net_instr_corr_swh_c: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: net instrumental correction on C band significant waveheight
units: m
quality_flag: qual_inst_corr_1hz_swh_c
scale_factor: 0.001000000000000000
coordinates: lon lat
comment: Sum of modeled instrumental errors correction (modeled_instr_corr_swh_c) and system bias
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
sig0_ku: Grid
_FillValue: 32767
long_name: Ku band corrected backscatter coefficient
standard_name: surface_backwards_scattering_coefficient_of_radar_wave
units: dB
quality_flag: qual_alt_1hz_sig0_ku
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: All instrumental corrections included, excepted the system bias, i.e. AGC instrumental errors correction, internal calibration correction (internal_corr_sig0_ku), modeled instrumental errors correction (modeled_instr_corr_sig0_ku) and atmospheric attenuation (atmos_corr_sig0_ku)
sig0_ku: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: Ku band corrected backscatter coefficient
standard_name: surface_backwards_scattering_coefficient_of_radar_wave
units: dB
quality_flag: qual_alt_1hz_sig0_ku
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: All instrumental corrections included, excepted the system bias, i.e. AGC instrumental errors correction, internal calibration correction (internal_corr_sig0_ku), modeled instrumental errors correction (modeled_instr_corr_sig0_ku) and atmospheric attenuation (atmos_corr_sig0_ku)
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
sig0_20hz_ku: Grid
_FillValue: 32767
long_name: 20 Hz Ku band corrected backscatter coefficient
standard_name: surface_backwards_scattering_coefficient_of_radar_wave
units: dB
scale_factor: 0.01000000000000000
coordinates: lon_20hz lat_20hz
comment: All instrumental corrections included, excepted the system bias, i.e. AGC instrumental errors correction, internal calibration correction (internal_corr_sig0_ku), modeled instrumental errors correction (modeled_instr_corr_sig0_ku) and atmospheric attenuation (atmos_corr_sig0_ku)
sig0_20hz_ku: Array of 16 bit Integers [time = 0..3062][meas_ind = 0..19]
_FillValue: 32767
long_name: 20 Hz Ku band corrected backscatter coefficient
standard_name: surface_backwards_scattering_coefficient_of_radar_wave
units: dB
scale_factor: 0.01000000000000000
coordinates: lon_20hz lat_20hz
comment: All instrumental corrections included, excepted the system bias, i.e. AGC instrumental errors correction, internal calibration correction (internal_corr_sig0_ku), modeled instrumental errors correction (modeled_instr_corr_sig0_ku) and atmospheric attenuation (atmos_corr_sig0_ku)
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
meas_ind: Array of 16 bit Integers [meas_ind = 0..19]
long_name: elementary measurement index
units: count
comment: Set to be compliant with the CF-1.1 convention
sig0_c: Grid
_FillValue: 32767
long_name: C band corrected backscatter coefficient
standard_name: surface_backwards_scattering_coefficient_of_radar_wave
units: dB
quality_flag: qual_alt_1hz_sig0_c
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: All instrumental corrections included, excepted the system bias, i.e. AGC instrumental errors correction, internal calibration correction (internal_corr_sig0_c), modeled instrumental errors correction (modeled_instr_corr_sig0_c) and atmospheric attenuation (atmos_corr_sig0_c)
sig0_c: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: C band corrected backscatter coefficient
standard_name: surface_backwards_scattering_coefficient_of_radar_wave
units: dB
quality_flag: qual_alt_1hz_sig0_c
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: All instrumental corrections included, excepted the system bias, i.e. AGC instrumental errors correction, internal calibration correction (internal_corr_sig0_c), modeled instrumental errors correction (modeled_instr_corr_sig0_c) and atmospheric attenuation (atmos_corr_sig0_c)
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
sig0_20hz_c: Grid
_FillValue: 32767
long_name: 20 Hz C band corrected backscatter coefficient
standard_name: surface_backwards_scattering_coefficient_of_radar_wave
units: dB
scale_factor: 0.01000000000000000
coordinates: lon_20hz lat_20hz
comment: All instrumental corrections included, excepted the system bias, i.e. AGC instrumental errors correction, internal calibration correction (internal_corr_sig0_c), modeled instrumental errors correction (modeled_instr_corr_sig0_c) and atmospheric attenuation (atmos_corr_sig0_c)
sig0_20hz_c: Array of 16 bit Integers [time = 0..3062][meas_ind = 0..19]
_FillValue: 32767
long_name: 20 Hz C band corrected backscatter coefficient
standard_name: surface_backwards_scattering_coefficient_of_radar_wave
units: dB
scale_factor: 0.01000000000000000
coordinates: lon_20hz lat_20hz
comment: All instrumental corrections included, excepted the system bias, i.e. AGC instrumental errors correction, internal calibration correction (internal_corr_sig0_c), modeled instrumental errors correction (modeled_instr_corr_sig0_c) and atmospheric attenuation (atmos_corr_sig0_c)
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
meas_ind: Array of 16 bit Integers [meas_ind = 0..19]
long_name: elementary measurement index
units: count
comment: Set to be compliant with the CF-1.1 convention
sig0_used_20hz_ku: Grid
_FillValue: 127
long_name: 20 Hz flag for utilization in the computation of 1Hz Ku band backscatter coefficient
flag_values: 0, 1
flag_meanings: yes no
coordinates: lon_20hz lat_20hz
comment: Map of valid points used to compute the 1-Hz Ku-band backscatter coefficient
sig0_used_20hz_ku: Array of 16 bit Integers [time = 0..3062][meas_ind = 0..19]
_FillValue: 127
long_name: 20 Hz flag for utilization in the computation of 1Hz Ku band backscatter coefficient
flag_values: 0, 1
flag_meanings: yes no
coordinates: lon_20hz lat_20hz
comment: Map of valid points used to compute the 1-Hz Ku-band backscatter coefficient
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
meas_ind: Array of 16 bit Integers [meas_ind = 0..19]
long_name: elementary measurement index
units: count
comment: Set to be compliant with the CF-1.1 convention
sig0_used_20hz_c: Grid
_FillValue: 127
long_name: 20 Hz flag for utilization in the computation of 1Hz C band backscatter coefficient
flag_values: 0, 1
flag_meanings: yes no
coordinates: lon_20hz lat_20hz
comment: Map of valid points used to compute the 1-Hz C-band backscatter coefficient
sig0_used_20hz_c: Array of 16 bit Integers [time = 0..3062][meas_ind = 0..19]
_FillValue: 127
long_name: 20 Hz flag for utilization in the computation of 1Hz C band backscatter coefficient
flag_values: 0, 1
flag_meanings: yes no
coordinates: lon_20hz lat_20hz
comment: Map of valid points used to compute the 1-Hz C-band backscatter coefficient
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
meas_ind: Array of 16 bit Integers [meas_ind = 0..19]
long_name: elementary measurement index
units: count
comment: Set to be compliant with the CF-1.1 convention
sig0_rms_ku: Grid
_FillValue: 32767
long_name: RMS of the Ku band backscatter coefficient
units: dB
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: Compression of Ku-band high rate elements is preceded by a detection of outliers. Only valid high-rate values are used to compute this element
sig0_rms_ku: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: RMS of the Ku band backscatter coefficient
units: dB
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: Compression of Ku-band high rate elements is preceded by a detection of outliers. Only valid high-rate values are used to compute this element
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
sig0_rms_c: Grid
_FillValue: 32767
long_name: RMS of the C band backscatter coefficient
units: dB
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: Compression of C-band high rate elements is preceded by a detection of outliers. Only valid high-rate values are used to compute this element
sig0_rms_c: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: RMS of the C band backscatter coefficient
units: dB
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: Compression of C-band high rate elements is preceded by a detection of outliers. Only valid high-rate values are used to compute this element
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
sig0_numval_ku: Grid
_FillValue: 127
long_name: number of valid points used to compute Ku backscatter coefficient
units: count
valid_min: 0
valid_max: 20
coordinates: lon lat
sig0_numval_ku: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: number of valid points used to compute Ku backscatter coefficient
units: count
valid_min: 0
valid_max: 20
coordinates: lon lat
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
sig0_numval_c: Grid
_FillValue: 127
long_name: number of valid points used to compute C backscatter coefficient
units: count
valid_min: 0
valid_max: 20
coordinates: lon lat
sig0_numval_c: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: number of valid points used to compute C backscatter coefficient
units: count
valid_min: 0
valid_max: 20
coordinates: lon lat
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
agc_ku: Grid
_FillValue: 32767
long_name: Ku band corrected AGC
units: dB
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: AGC is corrected for instrumental errors due to the imperfections of the on-board attenuators
agc_ku: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: Ku band corrected AGC
units: dB
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: AGC is corrected for instrumental errors due to the imperfections of the on-board attenuators
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
agc_c: Grid
_FillValue: 32767
long_name: C band corrected AGC
units: dB
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: AGC is corrected for instrumental errors due to the imperfections of the on-board attenuators
agc_c: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: C band corrected AGC
units: dB
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: AGC is corrected for instrumental errors due to the imperfections of the on-board attenuators
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
agc_rms_ku: Grid
_FillValue: 32767
long_name: RMS of the Ku band AGC
units: dB
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: Compression of Ku-band high rate elements is preceded by a detection of outliers. Only valid high-rate values are used to compute this element
agc_rms_ku: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: RMS of the Ku band AGC
units: dB
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: Compression of Ku-band high rate elements is preceded by a detection of outliers. Only valid high-rate values are used to compute this element
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
agc_rms_c: Grid
_FillValue: 32767
long_name: RMS of the C band AGC
units: dB
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: Compression of C-band high rate elements is preceded by a detection of outliers. Only valid high-rate values are used to compute this element
agc_rms_c: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: RMS of the C band AGC
units: dB
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: Compression of C-band high rate elements is preceded by a detection of outliers. Only valid high-rate values are used to compute this element
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
agc_numval_ku: Grid
_FillValue: 127
long_name: number of valid points used to compute Ku band AGC
units: count
valid_min: 0
valid_max: 20
coordinates: lon lat
agc_numval_ku: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: number of valid points used to compute Ku band AGC
units: count
valid_min: 0
valid_max: 20
coordinates: lon lat
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
agc_numval_c: Grid
_FillValue: 127
long_name: number of valid points used to compute C band AGC
units: count
valid_min: 0
valid_max: 20
coordinates: lon lat
agc_numval_c: Array of 16 bit Integers [time = 0..3062]
_FillValue: 127
long_name: number of valid points used to compute C band AGC
units: count
valid_min: 0
valid_max: 20
coordinates: lon lat
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
net_instr_corr_sig0_ku: Grid
_FillValue: 32767
long_name: net instrumental correction on Ku backscatter coefficient
units: dB
quality_flag: qual_inst_corr_1hz_sig0_ku
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: Sum of AGC instrumental errors correction, internal calibration correction (internal_corr_sig0_ku) and modeled instrumental errors correction (modeled_instr_corr_sig0_ku) - system bias not included
net_instr_corr_sig0_ku: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: net instrumental correction on Ku backscatter coefficient
units: dB
quality_flag: qual_inst_corr_1hz_sig0_ku
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: Sum of AGC instrumental errors correction, internal calibration correction (internal_corr_sig0_ku) and modeled instrumental errors correction (modeled_instr_corr_sig0_ku) - system bias not included
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
net_instr_corr_sig0_c: Grid
_FillValue: 32767
long_name: net instrumental correction on C backscatter coefficient
units: dB
quality_flag: qual_inst_corr_1hz_sig0_c
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: Sum of AGC instrumental errors correction, internal calibration correction (internal_corr_sig0_c) and modeled instrumental errors correction (modeled_instr_corr_sig0_c) - system bias not included
net_instr_corr_sig0_c: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: net instrumental correction on C backscatter coefficient
units: dB
quality_flag: qual_inst_corr_1hz_sig0_c
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: Sum of AGC instrumental errors correction, internal calibration correction (internal_corr_sig0_c) and modeled instrumental errors correction (modeled_instr_corr_sig0_c) - system bias not included
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
atmos_corr_sig0_ku: Grid
_FillValue: 32767
long_name: atmospheric attenuation correction on Ku band backscatter coefficient
units: dB
scale_factor: 0.01000000000000000
coordinates: lon lat
atmos_corr_sig0_ku: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: atmospheric attenuation correction on Ku band backscatter coefficient
units: dB
scale_factor: 0.01000000000000000
coordinates: lon lat
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
atmos_corr_sig0_c: Grid
_FillValue: 32767
long_name: atmospheric attenuation correction on C band backscatter coefficient
units: dB
scale_factor: 0.01000000000000000
coordinates: lon lat
atmos_corr_sig0_c: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: atmospheric attenuation correction on C band backscatter coefficient
units: dB
scale_factor: 0.01000000000000000
coordinates: lon lat
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
off_nadir_angle_wf_ku: Grid
_FillValue: 32767
long_name: square of the off nadir angle computed from Ku waveforms
units: degrees^2
quality_flag: qual_alt_1hz_off_nadir_angle_wf_ku
scale_factor: 0.0001000000000000000
coordinates: lon lat
off_nadir_angle_wf_ku: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: square of the off nadir angle computed from Ku waveforms
units: degrees^2
quality_flag: qual_alt_1hz_off_nadir_angle_wf_ku
scale_factor: 0.0001000000000000000
coordinates: lon lat
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
tb_187: Grid
_FillValue: 32767
long_name: 18.7 GHz main beam brightness temperature
standard_name: surface_brightness_temperature
units: K
quality_flag: qual_rad_1hz_tb187
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: Brightness temperatures are unsmoothed (along-track averaging has not been performed on the brightness temperatures)
tb_187: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: 18.7 GHz main beam brightness temperature
standard_name: surface_brightness_temperature
units: K
quality_flag: qual_rad_1hz_tb187
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: Brightness temperatures are unsmoothed (along-track averaging has not been performed on the brightness temperatures)
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
tb_238: Grid
_FillValue: 32767
long_name: 23.8 GHz main beam brightness temperature
standard_name: surface_brightness_temperature
units: K
quality_flag: qual_rad_1hz_tb238
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: Brightness temperatures are unsmoothed (along-track averaging has not been performed on the brightness temperatures)
tb_238: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: 23.8 GHz main beam brightness temperature
standard_name: surface_brightness_temperature
units: K
quality_flag: qual_rad_1hz_tb238
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: Brightness temperatures are unsmoothed (along-track averaging has not been performed on the brightness temperatures)
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
tb_340: Grid
_FillValue: 32767
long_name: 34.0 GHz main beam brightness temperature
standard_name: surface_brightness_temperature
units: K
quality_flag: qual_rad_1hz_tb340
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: Brightness temperatures are unsmoothed (along-track averaging has not been performed on the brightness temperatures)
tb_340: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: 34.0 GHz main beam brightness temperature
standard_name: surface_brightness_temperature
units: K
quality_flag: qual_rad_1hz_tb340
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: Brightness temperatures are unsmoothed (along-track averaging has not been performed on the brightness temperatures)
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
tb_187_smoothed: Grid
_FillValue: 32767
long_name: 18.7 GHz main beam smoothed brightness temperature
standard_name: surface_brightness_temperature
units: K
quality_flag: qual_rad_1hz_tb187
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: Brightness temperatures are along-track averaged
tb_187_smoothed: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: 18.7 GHz main beam smoothed brightness temperature
standard_name: surface_brightness_temperature
units: K
quality_flag: qual_rad_1hz_tb187
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: Brightness temperatures are along-track averaged
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
tb_238_smoothed: Grid
_FillValue: 32767
long_name: 23.8 GHz main beam smoothed brightness temperature
standard_name: surface_brightness_temperature
units: K
quality_flag: qual_rad_1hz_tb238
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: Brightness temperatures are along-track averaged
tb_238_smoothed: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: 23.8 GHz main beam smoothed brightness temperature
standard_name: surface_brightness_temperature
units: K
quality_flag: qual_rad_1hz_tb238
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: Brightness temperatures are along-track averaged
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
tb_340_smoothed: Grid
_FillValue: 32767
long_name: 34.0 GHz main beam smoothed brightness temperature
standard_name: surface_brightness_temperature
units: K
quality_flag: qual_rad_1hz_tb340
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: Brightness temperatures are along-track averaged
tb_340_smoothed: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: 34.0 GHz main beam smoothed brightness temperature
standard_name: surface_brightness_temperature
units: K
quality_flag: qual_rad_1hz_tb340
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: Brightness temperatures are along-track averaged
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
mean_sea_surface: Grid
_FillValue: 2147483647
long_name: mean sea surface height above reference ellipsoid
source: MSS_CNES_CLS-2011
institution: CLS/CNES
units: m
quality_flag: mean_sea_surface_err
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: The mean sea surface height is referenced to a 20 years mean. See Jason-1 User Handbook.
mean_sea_surface: Array of 32 bit Integers [time = 0..3062]
_FillValue: 2147483647
long_name: mean sea surface height above reference ellipsoid
source: MSS_CNES_CLS-2011
institution: CLS/CNES
units: m
quality_flag: mean_sea_surface_err
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: The mean sea surface height is referenced to a 20 years mean. See Jason-1 User Handbook.
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
mean_sea_surface_err: Grid
_FillValue: 2147483647
long_name: calibrated error of mean sea surface
source: MSS_CNES_CLS-2011
institution: CLS/CNES
units: m
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: See Jason-1 User Handbook
mean_sea_surface_err: Array of 32 bit Integers [time = 0..3062]
_FillValue: 2147483647
long_name: calibrated error of mean sea surface
source: MSS_CNES_CLS-2011
institution: CLS/CNES
units: m
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: See Jason-1 User Handbook
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
mean_topography: Grid
_FillValue: 2147483647
long_name: mean dynamic topography above geoid
source: MDT_CNES_CLS-2013
institution: CLS/CNES
units: m
quality_flag: mean_topography_err
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: The mean dynamic topography is referenced to a 20 years mean. See Jason-1 User Handbook.
mean_topography: Array of 32 bit Integers [time = 0..3062]
_FillValue: 2147483647
long_name: mean dynamic topography above geoid
source: MDT_CNES_CLS-2013
institution: CLS/CNES
units: m
quality_flag: mean_topography_err
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: The mean dynamic topography is referenced to a 20 years mean. See Jason-1 User Handbook.
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
mean_topography_err: Grid
_FillValue: 2147483647
long_name: error on mean dynamic topography
source: MDT_CNES_CLS-2013
institution: CLS/CNES
units: m
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: See Jason-1 User Handbook
mean_topography_err: Array of 32 bit Integers [time = 0..3062]
_FillValue: 2147483647
long_name: error on mean dynamic topography
source: MDT_CNES_CLS-2013
institution: CLS/CNES
units: m
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: See Jason-1 User Handbook
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
geoid: Grid
_FillValue: 2147483647
long_name: geoid height
standard_name: geoid_height_above_reference_ellipsoid
source: EGM2008
institution: National Geospatial-Intelligence Agency (NGA)
units: m
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: Computed from the geoid model with a correction to refer the value to the mean tide system i.e. includes the permanent tide (zero frequency). See Jason-1 User Handbook
geoid: Array of 32 bit Integers [time = 0..3062]
_FillValue: 2147483647
long_name: geoid height
standard_name: geoid_height_above_reference_ellipsoid
source: EGM2008
institution: National Geospatial-Intelligence Agency (NGA)
units: m
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: Computed from the geoid model with a correction to refer the value to the mean tide system i.e. includes the permanent tide (zero frequency). See Jason-1 User Handbook
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
bathymetry: Grid
_FillValue: 2147483647
long_name: ocean depth/land elevation
source: DTM2000.1
institution: GSFC
units: m
coordinates: lon lat
bathymetry: Array of 32 bit Integers [time = 0..3062]
_FillValue: 2147483647
long_name: ocean depth/land elevation
source: DTM2000.1
institution: GSFC
units: m
coordinates: lon lat
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
inv_bar_corr: Grid
_FillValue: 32767
long_name: inverted barometer height correction
standard_name: sea_surface_height_correction_due_to_air_pressure_at_low_frequency
source: European Center for Medium Range Weather Forecasting
institution: ECMWF
units: m
quality_flag:
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: Computed at the altimeter time-tag from the interpolation of 2 meteorological fields that surround the altimeter time-tag. See Jason-1 User Handbook
inv_bar_corr: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: inverted barometer height correction
standard_name: sea_surface_height_correction_due_to_air_pressure_at_low_frequency
source: European Center for Medium Range Weather Forecasting
institution: ECMWF
units: m
quality_flag:
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: Computed at the altimeter time-tag from the interpolation of 2 meteorological fields that surround the altimeter time-tag. See Jason-1 User Handbook
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
hf_fluctuations_corr: Grid
_FillValue: 32767
long_name: high frequency fluctuations of the sea surface topography
standard_name: sea_surface_height_correction_due_to_air_pressure_and_wind_at_high_frequency
institution: LEGOS/CLS/CNES
units: m
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: Provided as a correction to the inverted barometer correction (inv_bar_corr)
hf_fluctuations_corr: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: high frequency fluctuations of the sea surface topography
standard_name: sea_surface_height_correction_due_to_air_pressure_and_wind_at_high_frequency
institution: LEGOS/CLS/CNES
units: m
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: Provided as a correction to the inverted barometer correction (inv_bar_corr)
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
inv_bar_corr_era: Grid
_FillValue: 32767
long_name: inverted barometer height correction from ERA_Interim products
standard_name: sea_surface_height_correction_due_to_air_pressure_at_low_frequency
source: European Center for Medium Range Weather Forecasting
institution: ECMWF
units: m
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: Courtesy of ECMWF as provider of met data for the atmospheric corrections. Computed at the altimeter time-tag from the interpolation of 2 meteorological fields that surround the altimeter time-tag. See Jason-1 User Handbook
inv_bar_corr_era: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: inverted barometer height correction from ERA_Interim products
standard_name: sea_surface_height_correction_due_to_air_pressure_at_low_frequency
source: European Center for Medium Range Weather Forecasting
institution: ECMWF
units: m
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: Courtesy of ECMWF as provider of met data for the atmospheric corrections. Computed at the altimeter time-tag from the interpolation of 2 meteorological fields that surround the altimeter time-tag. See Jason-1 User Handbook
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
hf_fluctuations_corr_era: Grid
_FillValue: 32767
long_name: high frequency fluctuations of the sea surface topography derived from ERA_Interim products
standard_name: sea_surface_height_correction_due_to_air_pressure_and_wind_at_high_frequency
institution: LEGOS/CLS/CNES
units: m
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: Provided as a correction to the inverted barometer correction from ERA_Interim products (inv_bar_corr_era)
hf_fluctuations_corr_era: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: high frequency fluctuations of the sea surface topography derived from ERA_Interim products
standard_name: sea_surface_height_correction_due_to_air_pressure_and_wind_at_high_frequency
institution: LEGOS/CLS/CNES
units: m
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: Provided as a correction to the inverted barometer correction from ERA_Interim products (inv_bar_corr_era)
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
ocean_tide_sol1: Grid
_FillValue: 2147483647
long_name: geocentric ocean tide height (solution 1)
standard_name: sea_surface_height_amplitude_due_to_geocentric_ocean_tide
source: GOT4.10
institution: GSFC
units: m
quality_flag: interp_flag_ocean_tide_sol1
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: Solution 1 corresponds to GOT4.10 model. Includes the corresponding loading tide (load_tide_sol1) and equilibrium long-period ocean tide height (ocean_tide_equil). The permanent tide (zero frequency) is not included in this parameter because it is included in the geoid and mean sea surface (geoid, mean_sea_surface). See Jason-1 User Handbook
ocean_tide_sol1: Array of 32 bit Integers [time = 0..3062]
_FillValue: 2147483647
long_name: geocentric ocean tide height (solution 1)
standard_name: sea_surface_height_amplitude_due_to_geocentric_ocean_tide
source: GOT4.10
institution: GSFC
units: m
quality_flag: interp_flag_ocean_tide_sol1
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: Solution 1 corresponds to GOT4.10 model. Includes the corresponding loading tide (load_tide_sol1) and equilibrium long-period ocean tide height (ocean_tide_equil). The permanent tide (zero frequency) is not included in this parameter because it is included in the geoid and mean sea surface (geoid, mean_sea_surface). See Jason-1 User Handbook
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
ocean_tide_sol2: Grid
_FillValue: 2147483647
long_name: geocentric ocean tide height (solution 2)
standard_name: sea_surface_height_amplitude_due_to_geocentric_ocean_tide
source: FES2014
institution: LEGOS/CNES
units: m
quality_flag: interp_flag_ocean_tide_sol2
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: Solution 2 corresponds to FES2014 model. Includes the corresponding loading tide (load_tide_sol2) and equilibrium long-period ocean tide height (ocean_tide_equil). The permanent tide (zero frequency) is not included in this parameter because it is included in the geoid and mean sea surface (geoid, mean_sea_surface). See Jason-1 User Handbook
ocean_tide_sol2: Array of 32 bit Integers [time = 0..3062]
_FillValue: 2147483647
long_name: geocentric ocean tide height (solution 2)
standard_name: sea_surface_height_amplitude_due_to_geocentric_ocean_tide
source: FES2014
institution: LEGOS/CNES
units: m
quality_flag: interp_flag_ocean_tide_sol2
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: Solution 2 corresponds to FES2014 model. Includes the corresponding loading tide (load_tide_sol2) and equilibrium long-period ocean tide height (ocean_tide_equil). The permanent tide (zero frequency) is not included in this parameter because it is included in the geoid and mean sea surface (geoid, mean_sea_surface). See Jason-1 User Handbook
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
ocean_tide_equil: Grid
_FillValue: 32767
long_name: equilibrium long-period ocean tide height
standard_name: sea_surface_height_amplitude_due_to_equilibrium_ocean_tide
source: Cartwright and Edden [1973] Corrected tables of tidal harmonics - J. Geophys. J. R. Astr. Soc., 33, 253-264.
units: m
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: This value has already been added to the two geocentric ocean tide height values recorded in the product (ocean_tide_sol1 and ocean_tide_sol2). The permanent tide (zero frequency) is not included in this parameter because it is included in the geoid and mean sea surface (geoid, mean_sea_surface). See Jason-1 User Handbook
ocean_tide_equil: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: equilibrium long-period ocean tide height
standard_name: sea_surface_height_amplitude_due_to_equilibrium_ocean_tide
source: Cartwright and Edden [1973] Corrected tables of tidal harmonics - J. Geophys. J. R. Astr. Soc., 33, 253-264.
units: m
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: This value has already been added to the two geocentric ocean tide height values recorded in the product (ocean_tide_sol1 and ocean_tide_sol2). The permanent tide (zero frequency) is not included in this parameter because it is included in the geoid and mean sea surface (geoid, mean_sea_surface). See Jason-1 User Handbook
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
ocean_tide_non_equil: Grid
_FillValue: 32767
long_name: non-equilibrium long-period ocean tide height
standard_name: sea_surface_height_amplitude_due_to_non_equilibrium_ocean_tide
source: FES2014
institution: LEGOS/CNES
units: m
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: This parameter is computed as a correction to the parameter ocean_tide_equil. This value can be added to ocean_tide_equil (or ocean_tide_sol1, ocean_tide_sol2) so that the resulting value models the total non equilibrium ocean tide height. See Jason-1 User Handbook
ocean_tide_non_equil: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: non-equilibrium long-period ocean tide height
standard_name: sea_surface_height_amplitude_due_to_non_equilibrium_ocean_tide
source: FES2014
institution: LEGOS/CNES
units: m
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: This parameter is computed as a correction to the parameter ocean_tide_equil. This value can be added to ocean_tide_equil (or ocean_tide_sol1, ocean_tide_sol2) so that the resulting value models the total non equilibrium ocean tide height. See Jason-1 User Handbook
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
load_tide_sol1: Grid
_FillValue: 32767
long_name: load tide height for geocentric ocean tide (solution 1)
source: GOT4.10
institution: GSFC
units: m
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: This value has already been added to the corresponding ocean tide height value recorded in the product (ocean_tide_sol1). See Jason-1 User Handbook
load_tide_sol1: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: load tide height for geocentric ocean tide (solution 1)
source: GOT4.10
institution: GSFC
units: m
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: This value has already been added to the corresponding ocean tide height value recorded in the product (ocean_tide_sol1). See Jason-1 User Handbook
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
load_tide_sol2: Grid
_FillValue: 32767
long_name: load tide height for geocentric ocean tide (solution 2)
source: GOT4.8ac, tidal geocenter adjustement included
institution: GSFC
units: m
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: This value has already been added to the corresponding ocean tide height value recorded in the product (ocean_tide_sol2). See Jason-1 User Handbook
load_tide_sol2: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: load tide height for geocentric ocean tide (solution 2)
source: GOT4.8ac, tidal geocenter adjustement included
institution: GSFC
units: m
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: This value has already been added to the corresponding ocean tide height value recorded in the product (ocean_tide_sol2). See Jason-1 User Handbook
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
solid_earth_tide: Grid
_FillValue: 32767
long_name: solid earth tide height
standard_name: sea_surface_height_amplitude_due_to_earth_tide
source: Cartwright and Edden [1973] Corrected tables of tidal harmonics - J. Geophys. J. R. Astr. Soc., 33, 253-264.
units: m
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: Calculated using Cartwright and Tayler tables and consisting of the second and third degree constituents. The permanent tide (zero frequency) is not included. See Jason-1 User Handbook
solid_earth_tide: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: solid earth tide height
standard_name: sea_surface_height_amplitude_due_to_earth_tide
source: Cartwright and Edden [1973] Corrected tables of tidal harmonics - J. Geophys. J. R. Astr. Soc., 33, 253-264.
units: m
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: Calculated using Cartwright and Tayler tables and consisting of the second and third degree constituents. The permanent tide (zero frequency) is not included. See Jason-1 User Handbook
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
pole_tide: Grid
_FillValue: 32767
long_name: geocentric pole tide height
standard_name: sea_surface_height_amplitude_due_to_pole_tide
source: Wahr [1985] Deformation of the Earth induced by polar motion - J. Geophys. Res. (Solid Earth), 90, 9363-9368.
units: m
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: See Jason-1 User Handbook
pole_tide: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: geocentric pole tide height
standard_name: sea_surface_height_amplitude_due_to_pole_tide
source: Wahr [1985] Deformation of the Earth induced by polar motion - J. Geophys. Res. (Solid Earth), 90, 9363-9368.
units: m
scale_factor: 0.0001000000000000000
coordinates: lon lat
comment: See Jason-1 User Handbook
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
wind_speed_model_u: Grid
_FillValue: 32767
long_name: U component of the model wind vector
standard_name: wind_speed
source: European Center for Medium Range Weather Forecasting
institution: ECMWF
units: m/s
quality_flag:
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: Computed at the altimeter time-tag from the interpolation of 2 meteorological fields that surround the altimeter time-tag. See Jason-1 User Handbook
wind_speed_model_u: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: U component of the model wind vector
standard_name: wind_speed
source: European Center for Medium Range Weather Forecasting
institution: ECMWF
units: m/s
quality_flag:
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: Computed at the altimeter time-tag from the interpolation of 2 meteorological fields that surround the altimeter time-tag. See Jason-1 User Handbook
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
wind_speed_model_v: Grid
_FillValue: 32767
long_name: V component of the model wind vector
standard_name: wind_speed
source: European Center for Medium Range Weather Forecasting
institution: ECMWF
units: m/s
quality_flag:
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: Computed at the altimeter time-tag from the interpolation of 2 meteorological fields that surround the altimeter time-tag. See Jason-1 User Handbook
wind_speed_model_v: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: V component of the model wind vector
standard_name: wind_speed
source: European Center for Medium Range Weather Forecasting
institution: ECMWF
units: m/s
quality_flag:
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: Computed at the altimeter time-tag from the interpolation of 2 meteorological fields that surround the altimeter time-tag. See Jason-1 User Handbook
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
wind_speed_model_u_era: Grid
_FillValue: 32767
long_name: U component of the model wind vector from ERA_Interim products
standard_name: wind_speed
source: European Center for Medium Range Weather Forecasting
institution: ECMWF
units: m/s
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: Courtesy of ECMWF. Computed at the altimeter time-tag from the interpolation of 2 meteorological fields that surround the altimeter time-tag. See Jason-1 User Handbook
wind_speed_model_u_era: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: U component of the model wind vector from ERA_Interim products
standard_name: wind_speed
source: European Center for Medium Range Weather Forecasting
institution: ECMWF
units: m/s
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: Courtesy of ECMWF. Computed at the altimeter time-tag from the interpolation of 2 meteorological fields that surround the altimeter time-tag. See Jason-1 User Handbook
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
wind_speed_model_v_era: Grid
_FillValue: 32767
long_name: V component of the model wind vector from ERA_Interim products
standard_name: wind_speed
source: European Center for Medium Range Weather Forecasting
institution: ECMWF
units: m/s
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: Courtesy of ECMWF. Computed at the altimeter time-tag from the interpolation of 2 meteorological fields that surround the altimeter time-tag. See Jason-1 User Handbook
wind_speed_model_v_era: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: V component of the model wind vector from ERA_Interim products
standard_name: wind_speed
source: European Center for Medium Range Weather Forecasting
institution: ECMWF
units: m/s
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: Courtesy of ECMWF. Computed at the altimeter time-tag from the interpolation of 2 meteorological fields that surround the altimeter time-tag. See Jason-1 User Handbook
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
wind_speed_alt: Grid
_FillValue: 32767
long_name: altimeter wind speed
standard_name: wind_speed
units: m/s
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: Should not be used over land. See Jason-1 User Handbook
wind_speed_alt: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: altimeter wind speed
standard_name: wind_speed
units: m/s
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: Should not be used over land. See Jason-1 User Handbook
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
wind_speed_rad: Grid
_FillValue: 32767
long_name: radiometer wind speed
standard_name: wind_speed
source: JMR
institution: NASA/JPL
units: m/s
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: Should not be used over land. See Jason-1 User Handbook
wind_speed_rad: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: radiometer wind speed
standard_name: wind_speed
source: JMR
institution: NASA/JPL
units: m/s
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: Should not be used over land. See Jason-1 User Handbook
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
rad_water_vapor: Grid
_FillValue: 32767
long_name: radiometer water vapor content
standard_name: atmosphere_water_vapor_content
source: JMR
institution: NASA/JPL
units: kg/m^2
quality_flag: qual_rad_1hz_tb187 and qual_rad_1hz_tb238 and qual_rad_1hz_tb340 and interp_flag_tb
scale_factor: 0.1000000000000000
coordinates: lon lat
comment: Should not be used over land.
rad_water_vapor: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: radiometer water vapor content
standard_name: atmosphere_water_vapor_content
source: JMR
institution: NASA/JPL
units: kg/m^2
quality_flag: qual_rad_1hz_tb187 and qual_rad_1hz_tb238 and qual_rad_1hz_tb340 and interp_flag_tb
scale_factor: 0.1000000000000000
coordinates: lon lat
comment: Should not be used over land.
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
rad_liquid_water: Grid
_FillValue: 32767
long_name: radiometer liquid water content
standard_name: atmosphere_cloud_liquid_water_content
source: JMR
institution: NASA/JPL
units: kg/m^2
quality_flag: qual_rad_1hz_tb187 and qual_rad_1hz_tb238 and qual_rad_1hz_tb340 and interp_flag_tb
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: Should not be used over land.
rad_liquid_water: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: radiometer liquid water content
standard_name: atmosphere_cloud_liquid_water_content
source: JMR
institution: NASA/JPL
units: kg/m^2
quality_flag: qual_rad_1hz_tb187 and qual_rad_1hz_tb238 and qual_rad_1hz_tb340 and interp_flag_tb
scale_factor: 0.01000000000000000
coordinates: lon lat
comment: Should not be used over land.
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
ice_range_20hz_ku: Grid
_FillValue: 2147483647
long_name: 20 Hz Ku band altimeter range (ice retracking)
standard_name: altimeter_range
units: m
add_offset: 1300000.000000000
scale_factor: 0.0001000000000000000
coordinates: lon_20hz lat_20hz
comment: Distance antenna-COG (cog_corr), USO drift correction (uso_corr) and internal path correction (internal_path_delay_corr_ku) included
ice_range_20hz_ku: Array of 32 bit Integers [time = 0..3062][meas_ind = 0..19]
_FillValue: 2147483647
long_name: 20 Hz Ku band altimeter range (ice retracking)
standard_name: altimeter_range
units: m
add_offset: 1300000.000000000
scale_factor: 0.0001000000000000000
coordinates: lon_20hz lat_20hz
comment: Distance antenna-COG (cog_corr), USO drift correction (uso_corr) and internal path correction (internal_path_delay_corr_ku) included
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
meas_ind: Array of 16 bit Integers [meas_ind = 0..19]
long_name: elementary measurement index
units: count
comment: Set to be compliant with the CF-1.1 convention
ice_range_20hz_c: Grid
_FillValue: 2147483647
long_name: 20 Hz C band altimeter range (ice retracking)
standard_name: altimeter_range
units: m
add_offset: 1300000.000000000
scale_factor: 0.0001000000000000000
coordinates: lon_20hz lat_20hz
comment: Distance antenna-COG (cog_corr), USO drift correction (uso_corr) and internal path correction (internal_path_delay_corr_c) included
ice_range_20hz_c: Array of 32 bit Integers [time = 0..3062][meas_ind = 0..19]
_FillValue: 2147483647
long_name: 20 Hz C band altimeter range (ice retracking)
standard_name: altimeter_range
units: m
add_offset: 1300000.000000000
scale_factor: 0.0001000000000000000
coordinates: lon_20hz lat_20hz
comment: Distance antenna-COG (cog_corr), USO drift correction (uso_corr) and internal path correction (internal_path_delay_corr_c) included
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
meas_ind: Array of 16 bit Integers [meas_ind = 0..19]
long_name: elementary measurement index
units: count
comment: Set to be compliant with the CF-1.1 convention
ice_sig0_20hz_ku: Grid
_FillValue: 32767
long_name: 20 Hz Ku band backscatter coefficient (ice retracking)
standard_name: surface_backwards_scattering_coefficient_of_radar_wave
units: dB
scale_factor: 0.01000000000000000
coordinates: lon_20hz lat_20hz
comment: AGC instrumental errors correction and internal calibration correction (internal_corr_sig0_ku) included
ice_sig0_20hz_ku: Array of 16 bit Integers [time = 0..3062][meas_ind = 0..19]
_FillValue: 32767
long_name: 20 Hz Ku band backscatter coefficient (ice retracking)
standard_name: surface_backwards_scattering_coefficient_of_radar_wave
units: dB
scale_factor: 0.01000000000000000
coordinates: lon_20hz lat_20hz
comment: AGC instrumental errors correction and internal calibration correction (internal_corr_sig0_ku) included
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
meas_ind: Array of 16 bit Integers [meas_ind = 0..19]
long_name: elementary measurement index
units: count
comment: Set to be compliant with the CF-1.1 convention
ice_sig0_20hz_c: Grid
_FillValue: 32767
long_name: 20 Hz C band backscatter coefficient (ice retracking)
standard_name: surface_backwards_scattering_coefficient_of_radar_wave
units: dB
scale_factor: 0.01000000000000000
coordinates: lon_20hz lat_20hz
comment: AGC instrumental errors correction and internal calibration correction (internal_corr_sig0_c) included
ice_sig0_20hz_c: Array of 16 bit Integers [time = 0..3062][meas_ind = 0..19]
_FillValue: 32767
long_name: 20 Hz C band backscatter coefficient (ice retracking)
standard_name: surface_backwards_scattering_coefficient_of_radar_wave
units: dB
scale_factor: 0.01000000000000000
coordinates: lon_20hz lat_20hz
comment: AGC instrumental errors correction and internal calibration correction (internal_corr_sig0_c) included
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
meas_ind: Array of 16 bit Integers [meas_ind = 0..19]
long_name: elementary measurement index
units: count
comment: Set to be compliant with the CF-1.1 convention
ice_qual_flag_20hz_ku: Grid
_FillValue: 127
long_name: 20 Hz Ku band ice retracking quality flag
flag_values: 0, 1
flag_meanings: good bad
coordinates: lon_20hz lat_20hz
comment: ice retracking quality flag
ice_qual_flag_20hz_ku: Array of 16 bit Integers [time = 0..3062][meas_ind = 0..19]
_FillValue: 127
long_name: 20 Hz Ku band ice retracking quality flag
flag_values: 0, 1
flag_meanings: good bad
coordinates: lon_20hz lat_20hz
comment: ice retracking quality flag
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
meas_ind: Array of 16 bit Integers [meas_ind = 0..19]
long_name: elementary measurement index
units: count
comment: Set to be compliant with the CF-1.1 convention
mqe_20hz_ku: Grid
_FillValue: 32767
long_name: 20 Hz Ku band MQE (ocean retracking)
units: count
scale_factor: 0.0001000000000000000
coordinates: lon_20hz lat_20hz
comment: Mean Quadratic Error between the waveforms samples and the corresponding model samples built from the ocean retracking outputs
mqe_20hz_ku: Array of 16 bit Integers [time = 0..3062][meas_ind = 0..19]
_FillValue: 32767
long_name: 20 Hz Ku band MQE (ocean retracking)
units: count
scale_factor: 0.0001000000000000000
coordinates: lon_20hz lat_20hz
comment: Mean Quadratic Error between the waveforms samples and the corresponding model samples built from the ocean retracking outputs
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
meas_ind: Array of 16 bit Integers [meas_ind = 0..19]
long_name: elementary measurement index
units: count
comment: Set to be compliant with the CF-1.1 convention
mqe_20hz_c: Grid
_FillValue: 32767
long_name: 20 Hz C band MQE (ocean retracking)
units: count
scale_factor: 0.0001000000000000000
coordinates: lon_20hz lat_20hz
comment: Mean Quadratic Error between the waveforms samples and the corresponding model samples built from the ocean retracking outputs
mqe_20hz_c: Array of 16 bit Integers [time = 0..3062][meas_ind = 0..19]
_FillValue: 32767
long_name: 20 Hz C band MQE (ocean retracking)
units: count
scale_factor: 0.0001000000000000000
coordinates: lon_20hz lat_20hz
comment: Mean Quadratic Error between the waveforms samples and the corresponding model samples built from the ocean retracking outputs
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
meas_ind: Array of 16 bit Integers [meas_ind = 0..19]
long_name: elementary measurement index
units: count
comment: Set to be compliant with the CF-1.1 convention
peakiness_20hz_ku: Grid
_FillValue: 32767
long_name: 20 Hz peakiness on Ku band waveforms
units: count
scale_factor: 0.001000000000000000
coordinates: lon_20hz lat_20hz
peakiness_20hz_ku: Array of 16 bit Integers [time = 0..3062][meas_ind = 0..19]
_FillValue: 32767
long_name: 20 Hz peakiness on Ku band waveforms
units: count
scale_factor: 0.001000000000000000
coordinates: lon_20hz lat_20hz
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
meas_ind: Array of 16 bit Integers [meas_ind = 0..19]
long_name: elementary measurement index
units: count
comment: Set to be compliant with the CF-1.1 convention
peakiness_20hz_c: Grid
_FillValue: 32767
long_name: 20 Hz peakiness on C band waveforms
units: count
scale_factor: 0.001000000000000000
coordinates: lon_20hz lat_20hz
peakiness_20hz_c: Array of 16 bit Integers [time = 0..3062][meas_ind = 0..19]
_FillValue: 32767
long_name: 20 Hz peakiness on C band waveforms
units: count
scale_factor: 0.001000000000000000
coordinates: lon_20hz lat_20hz
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.
meas_ind: Array of 16 bit Integers [meas_ind = 0..19]
long_name: elementary measurement index
units: count
comment: Set to be compliant with the CF-1.1 convention
ssha: Grid
_FillValue: 32767
long_name: sea surface height anomaly
standard_name: sea_surface_height_above_sea_level
source: Poseidon-2
institution: CNES
units: m
scale_factor: 0.001000000000000000
coordinates: lon lat
comment: = altitude of satellite (alt) - Ku band corrected altimeter range (range_ku) - altimeter ionospheric correction on Ku band (iono_corr_alt_ku) - model dry tropospheric correction (model_dry_tropo_corr) - radiometer wet tropospheric correction (rad_wet_tropo_corr) - sea state bias correction in Ku band (sea_state_bias_ku) - solid earth tide height (solid_earth_tide) - geocentric ocean tide height solution 1 (ocean_tide_sol1) - geocentric pole tide height (pole_tide) - inverted barometer height correction (inv_bar_corr) - high frequency fluctuations of the sea surface topography (hf_fluctuations_corr for I/GDR off line products only) - mean sea surface (mean_sea_surface). Set to default if the altimeter surface type (surface_type) is set to 1, 2, or 3 (lake_enclosed_sea, ice, or land)
ssha: Array of 16 bit Integers [time = 0..3062]
_FillValue: 32767
long_name: sea surface height anomaly
standard_name: sea_surface_height_above_sea_level
source: Poseidon-2
institution: CNES
units: m
scale_factor: 0.001000000000000000
coordinates: lon lat
comment: = altitude of satellite (alt) - Ku band corrected altimeter range (range_ku) - altimeter ionospheric correction on Ku band (iono_corr_alt_ku) - model dry tropospheric correction (model_dry_tropo_corr) - radiometer wet tropospheric correction (rad_wet_tropo_corr) - sea state bias correction in Ku band (sea_state_bias_ku) - solid earth tide height (solid_earth_tide) - geocentric ocean tide height solution 1 (ocean_tide_sol1) - geocentric pole tide height (pole_tide) - inverted barometer height correction (inv_bar_corr) - high frequency fluctuations of the sea surface topography (hf_fluctuations_corr for I/GDR off line products only) - mean sea surface (mean_sea_surface). Set to default if the altimeter surface type (surface_type) is set to 1, 2, or 3 (lake_enclosed_sea, ice, or land)
time: Array of 64 bit Reals [time = 0..3062]
long_name: time (sec. since 2000-01-01)
standard_name: time
calendar: gregorian
tai_utc_difference: 34.00000000000000
leap_second: 0000-00-00 00:00:00
units: seconds since 2000-01-01 00:00:00.0
comment: [tai_utc_difference] is the difference between TAI - UTC (i.e., leap seconds) for the first measurement of the data set. [leap_second] is the UTC time at which a leap second occurs in the data set, if any. After this UTC time, the [tai_utc_difference] is increased by 1 second. time variable is corrected from datation bias. See Jason-1 User handbook.