OMI_L2_OMDOMINO
Variables
The table below lists the variables that are present in the HARP product that results from an ingestion of OMI_L2_OMDOMINO
data.
field name 
type 
dimensions 
unit 
description 

datetime 
double 
{time} 
[seconds since 20000101] 
time of the measurement 
longitude 
double 
{time} 
[degree_east] 
longitude of the ground pixel center 
latitude 
double 
{time} 
[degree_north] 
latitude of the ground pixel center 
longitude_bounds 
double 
{time, 4} 
[degree_east] 
longitudes of the ground pixel corners 
latitude_bounds 
double 
{time, 4} 
[degree_north] 
latitudes of the ground pixel corners 
solar_zenith_angle 
double 
{time} 
[degree] 
solar zenith angle at WGS84 ellipsoid for center coordinate of the ground pixel 
solar_azimuth_angle 
double 
{time} 
[degree] 
solar azimuth angle at WGS84 ellipsoid for center coordinate of the ground pixel, defined EastofNorth 
viewing_zenith_angle 
double 
{time} 
[degree] 
viewing zenith angle at WGS84 ellipsoid for center coordinate of the ground pixel 
viewing_azimuth_angle 
double 
{time} 
[degree] 
viewing azimuth angle at WGS84 ellipsoid for center coordinate of the ground pixel, defined EastofNorth 
NO2_column_number_density 
double 
{time} 
[molec/cm^2] 
NO2 vertical column density 
NO2_column_number_density_uncertainty 
double 
{time} 
[molec/cm^2] 
uncertainty of the NO2 vertical column density 
tropospheric_NO2_column_number_density 
double 
{time} 
[molec/cm^2] 
NO2 tropospheric column density 
tropospheric_NO2_column_number_density_uncertainty 
double 
{time} 
[molec/cm^2] 
uncertainty of the NO2 tropospheric column density 
tropospheric_NO2_column_number_density_validity 
int16 
{time} 
flags describing the NO2 tropospheric column processing quality 

cloud_fraction 
double 
{time} 
[] 
effective cloud fraction 
cloud_fraction_uncertainty 
double 
{time} 
[] 
uncertainty of the effective cloud fraction 
cloud_pressure 
double 
{time} 
[hPa] 
effective cloud pressure 
cloud_pressure_uncertainty 
double 
{time} 
[hPa] 
uncertainty of the effective cloud pressure 
index 
int32 
{time} 
zerobased index of the sample within the source product 
Mapping description
The shape and size of each ground pixel is not included in the product. HARP therefore provides its own approximation which is based on interpolation of the available center coordinates for each of the ground pixels. Each corner coordinate is determined by its four surrounding center coordinates. The corner coordinate is exactly at the intersection of the cross that can be made with these four points (each line of the cross is the greatcircle distance from one center coordinate to the other). In situations where a corner coordinate is not surrounded by four center coordinates (i.e. at the boundaries) virtual center coordinates are created by means of extrapolation. The virtual center coordinate is placed such that the distance to its nearest real center coordinate equals the distance between that nearest real center coordinate and the next center coordinate going further inwards. In mathematical notation: when c(i,m+1) is the virtual center coordinate and c(i,m) and c(i,m1) are real center coordinates, then c(i,m+1)  c(i,m) = c(i,m)  c(i,m1) and all three coordinates should lie on the same great circle. The four virtual coordinates that lie in the utmost corners of the boundaries are calculated by extrapolating in a diagonal direction (e.g. c(n+1,m+1) is calculated from c(n,m) and c(n1,m1)).
The table below details where and how each variable was retrieved from the input product.
field name 
mapping description 


datetime 
path 
/HDFEOS/SWATHS/DominoNO2/Geolocation_Fields/Time[] 
description 
the time of the measurement converted from TAI93 to seconds since 20000101T00:00:00 

longitude 
path 
/HDFEOS/SWATHS/DominoNO2/Geolocation_Fields/Longitude[] 
latitude 
path 
/HDFEOS/SWATHS/DominoNO2/Geolocation_Fields/Latitude[] 
longitude_bounds 
path 
/HDFEOS/SWATHS/DominoNO2/Geolocation_Fields/LongitudeCornerpoints[] 
description 
corners are reordered from {a,b,c,d} to {d,b,a,c} 

latitude_bounds 
path 
/HDFEOS/SWATHS/DominoNO2/Geolocation_Fields/LatitudeCornerpoints[] 
description 
corners are reordered from {a,b,c,d} to {d,b,a,c} 

solar_zenith_angle 
path 
/HDFEOS/SWATHS/DominoNO2/Geolocation_Fields/SolarZenithAngle[] 
solar_azimuth_angle 
path 
/HDFEOS/SWATHS/DominoNO2/Geolocation_Fields/SolarAzimuthAngle[] 
viewing_zenith_angle 
path 
/HDFEOS/SWATHS/DominoNO2/Geolocation_Fields/ViewingZenithAngle[] 
viewing_azimuth_angle 
path 
/HDFEOS/SWATHS/DominoNO2/Geolocation_Fields/ViewingAzimuthAngle[] 
NO2_column_number_density 
path 
/HDFEOS/SWATHS/DominoNO2/Data_Fields/TotalVerticalColumn[] 
NO2_column_number_density_uncertainty 
path 
/HDFEOS/SWATHS/DominoNO2/Data_Fields/TotalVerticalColumnError[] 
tropospheric_NO2_column_number_density 
path 
/HDFEOS/SWATHS/DominoNO2/Data_Fields/TroposphericVerticalColumn[] 
tropospheric_NO2_column_number_density_uncertainty 
path 
/HDFEOS/SWATHS/DominoNO2/Data_Fields/TroposphericVerticalColumnError[] 
tropospheric_NO2_column_number_density_validity 
path 
/HDFEOS/SWATHS/DominoNO2/Data_Fields/TroposphericColumnFlag[] 
description 
data is converted from uint8 to int16 

cloud_fraction 
path 
/HDFEOS/SWATHS/DominoNO2/Data_Fields/CloudFraction[] 
cloud_fraction_uncertainty 
path 
/HDFEOS/SWATHS/DominoNO2/Data_Fields/CloudFractionStd[] 
cloud_pressure 
path 
/HDFEOS/SWATHS/DominoNO2/Data_Fields/CloudPressure[] 
cloud_pressure_uncertainty 
path 
/HDFEOS/SWATHS/DominoNO2/Data_Fields/CloudPressureStd[] 