GOSAT_FTS_L1b_band2p
Variables
The table below lists the variables that are present in the HARP product that results from an ingestion of GOSAT_FTS_L1b_band2p
data.
field name |
type |
dimensions |
unit |
description |
---|---|---|---|---|
datetime |
double |
{time} |
[seconds since 2000-01-01] |
start time of the measurement |
longitude |
double |
{time} |
[degree_east] |
longitude of the measurement |
latitude |
double |
{time} |
[degree_north] |
latitude of the measurement |
radiance |
double |
{time, spectral} |
[V/cm^-1] |
radiances derived by taking the norm of the fourier transform of measured wavelengths |
wavenumber |
double |
{time, spectral} |
[cm^-1] |
wavenumber for each point in the spectrum |
index |
int32 |
{time} |
zero-based index of the sample within the source product |
Ingestion options
The table below lists the available ingestion options for GOSAT_FTS_L1b
products.
option name |
legal values |
description |
---|---|---|
band |
1p, 1s, 2p, 2s, 3p, 3s, 4 |
spectral band to ingest (default is 1p) |
This definition is only applicable when: band=2p
Mapping description
The table below details where and how each variable was retrieved from the input product.
field name |
mapping description |
|
---|---|---|
datetime |
path |
/exposureAttribute/pointAttribute/Time[] |
description |
the record with year/month/day/hour/min/sec values is converted to a double precision floating point value that represents the amount of seconds since 2000-01-01 00:00:00 |
|
longitude |
path |
/exposureAttribute/pointAttribute/geometricInfo/centerLon[] |
latitude |
path |
/exposureAttribute/pointAttribute/geometricInfo/centerLat[] |
radiance |
path |
/Spectrum/SWIR/band2/obsWavelength[,0,,] |
description |
the radiance returned is the complex norm of the complex value that is stored in the product; in other words, what is returned is sqrt(real * real + imag * imag) |
|
wavenumber |
path |
/exposureAttribute/pointAttribute/RadiometricCorrectionInfo/spectrumObsWavelengthRange_SWIR |
description |
the wavenumbers are calculated by evaluating the function a.x + b for x = 0 .. N-1 with a,b the wavelength range parameters in the product |