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  <div class="section" id="s5p-l2-co">
<h1>S5P_L2_CO</h1>
<div class="section" id="variables">
<h2>Variables</h2>
<p>The table below lists the variables that are present in the HARP product that results from an ingestion of <code class="docutils literal notranslate"><span class="pre">S5P_L2_CO</span></code> data.</p>
<table border="1" class="colwidths-given docutils">
<colgroup>
<col width="25%" />
<col width="5%" />
<col width="15%" />
<col width="15%" />
<col width="40%" />
</colgroup>
<thead valign="bottom">
<tr class="row-odd"><th class="head">field name</th>
<th class="head">type</th>
<th class="head">dimensions</th>
<th class="head">unit</th>
<th class="head">description</th>
</tr>
</thead>
<tbody valign="top">
<tr class="row-even"><td><strong>scan_subindex</strong></td>
<td>int16</td>
<td>{<em>time</em>}</td>
<td>&#160;</td>
<td>pixel index (0-based) within the scanline</td>
</tr>
<tr class="row-odd"><td><strong>datetime_start</strong></td>
<td>double</td>
<td>{<em>time</em>}</td>
<td>[seconds since 2010-01-01]</td>
<td>start time of the measurement</td>
</tr>
<tr class="row-even"><td><strong>datetime_length</strong></td>
<td>double</td>
<td>&#160;</td>
<td>[s]</td>
<td>duration of the measurement</td>
</tr>
<tr class="row-odd"><td><strong>orbit_index</strong></td>
<td>int32</td>
<td>&#160;</td>
<td>&#160;</td>
<td>absolute orbit number</td>
</tr>
<tr class="row-even"><td><strong>validity</strong></td>
<td>int32</td>
<td>{<em>time</em>}</td>
<td>&#160;</td>
<td>processing quality flag</td>
</tr>
<tr class="row-odd"><td><strong>latitude</strong></td>
<td>float</td>
<td>{<em>time</em>}</td>
<td>[degree_north]</td>
<td>latitude of the ground pixel center (WGS84)</td>
</tr>
<tr class="row-even"><td><strong>longitude</strong></td>
<td>float</td>
<td>{<em>time</em>}</td>
<td>[degree_east]</td>
<td>longitude of the ground pixel center (WGS84)</td>
</tr>
<tr class="row-odd"><td><strong>latitude_bounds</strong></td>
<td>float</td>
<td>{<em>time</em>, 4}</td>
<td>[degree_north]</td>
<td>latitudes of the ground pixel corners (WGS84)</td>
</tr>
<tr class="row-even"><td><strong>longitude_bounds</strong></td>
<td>float</td>
<td>{<em>time</em>, 4}</td>
<td>[degree_east]</td>
<td>longitudes of the ground pixel corners (WGS84)</td>
</tr>
<tr class="row-odd"><td><strong>sensor_latitude</strong></td>
<td>float</td>
<td>{<em>time</em>}</td>
<td>[degree_north]</td>
<td>latitude of the geodetic sub-satellite point (WGS84)</td>
</tr>
<tr class="row-even"><td><strong>sensor_longitude</strong></td>
<td>float</td>
<td>{<em>time</em>}</td>
<td>[degree_east]</td>
<td>longitude of the goedetic sub-satellite point (WGS84)</td>
</tr>
<tr class="row-odd"><td><strong>sensor_altitude</strong></td>
<td>float</td>
<td>{<em>time</em>}</td>
<td>[m]</td>
<td>altitude of the satellite with respect to the geodetic sub-satellite point (WGS84)</td>
</tr>
<tr class="row-even"><td><strong>solar_zenith_angle</strong></td>
<td>float</td>
<td>{<em>time</em>}</td>
<td>[degree]</td>
<td>zenith angle of the Sun at the ground pixel location (WGS84); angle measured away from the vertical</td>
</tr>
<tr class="row-odd"><td><strong>solar_azimuth_angle</strong></td>
<td>float</td>
<td>{<em>time</em>}</td>
<td>[degree]</td>
<td>azimuth angle of the Sun at the ground pixel location (WGS84); angle measured East-of-North</td>
</tr>
<tr class="row-even"><td><strong>sensor_zenith_angle</strong></td>
<td>float</td>
<td>{<em>time</em>}</td>
<td>[degree]</td>
<td>zenith angle of the satellite at the ground pixel location (WGS84); angle measured away from the vertical</td>
</tr>
<tr class="row-odd"><td><strong>sensor_azimuth_angle</strong></td>
<td>float</td>
<td>{<em>time</em>}</td>
<td>[degree]</td>
<td>azimuth angle of the satellite at the ground pixel location (WGS84); angle measured East-of-North</td>
</tr>
<tr class="row-even"><td><strong>altitude</strong></td>
<td>float</td>
<td>{<em>time</em>, <em>vertical</em>}</td>
<td>[m]</td>
<td>altitude grid on which the radiative transfer calculations are done</td>
</tr>
<tr class="row-odd"><td><strong>pressure_bounds</strong></td>
<td>float</td>
<td>{<em>time</em>, <em>vertical</em>, 2}</td>
<td>[Pa]</td>
<td>pressure boundaries of the layers of the vertical grid</td>
</tr>
<tr class="row-even"><td><strong>surface_altitude</strong></td>
<td>float</td>
<td>{<em>time</em>}</td>
<td>[m]</td>
<td>surface altitude</td>
</tr>
<tr class="row-odd"><td><strong>surface_altitude_uncertainty</strong></td>
<td>float</td>
<td>{<em>time</em>}</td>
<td>[m]</td>
<td>surface altitude precision</td>
</tr>
<tr class="row-even"><td><strong>surface_pressure</strong></td>
<td>float</td>
<td>{<em>time</em>}</td>
<td>[Pa]</td>
<td>surface pressure</td>
</tr>
<tr class="row-odd"><td><strong>CO_column_number_density</strong></td>
<td>float</td>
<td>{<em>time</em>}</td>
<td>[mol/m^2]</td>
<td>vertically integrated CO column density</td>
</tr>
<tr class="row-even"><td><strong>CO_column_number_density_uncertainty</strong></td>
<td>float</td>
<td>{<em>time</em>}</td>
<td>[mol/m^2]</td>
<td>uncertainty of the vertically integrated CO column density (standard error)</td>
</tr>
<tr class="row-odd"><td><strong>CO_column_number_density_validity</strong></td>
<td>int8</td>
<td>{<em>time</em>}</td>
<td>&#160;</td>
<td>continuous quality descriptor, varying between 0 (no data) and 100 (full quality data)</td>
</tr>
<tr class="row-even"><td><strong>CO_number_density_avk</strong></td>
<td>float</td>
<td>{<em>time</em>, <em>vertical</em>}</td>
<td>[m]</td>
<td>averaging kernel for the vertically integrated CO column density (for number density profiles)</td>
</tr>
<tr class="row-odd"><td><strong>CO_column_number_density_avk</strong></td>
<td>float</td>
<td>{<em>time</em>, <em>vertical</em>}</td>
<td>[]</td>
<td>averaging kernel for the vertically integrated CO column density (for partial column number density profiles)</td>
</tr>
<tr class="row-even"><td><strong>H2O_column_number_density</strong></td>
<td>float</td>
<td>{<em>time</em>}</td>
<td>[mol/m^2]</td>
<td>H2O total column density</td>
</tr>
<tr class="row-odd"><td><strong>H2O_column_number_density_uncertainty</strong></td>
<td>float</td>
<td>{<em>time</em>}</td>
<td>[mol/m^2]</td>
<td>uncertainty of the H2O column density (standard error)</td>
</tr>
<tr class="row-even"><td><strong>cloud_height</strong></td>
<td>float</td>
<td>{<em>time</em>}</td>
<td>[m]</td>
<td>Scattering layer height</td>
</tr>
<tr class="row-odd"><td><strong>cloud_optical_depth</strong></td>
<td>float</td>
<td>{<em>time</em>}</td>
<td>[]</td>
<td>Scattering optical thickness SWIR</td>
</tr>
<tr class="row-even"><td><strong>index</strong></td>
<td>int32</td>
<td>{<em>time</em>}</td>
<td>&#160;</td>
<td>zero-based index of the sample within the source product</td>
</tr>
</tbody>
</table>
</div>
<div class="section" id="ingestion-options">
<h2>Ingestion options</h2>
<p>The table below lists the available ingestion options for <code class="docutils literal notranslate"><span class="pre">S5P_L2_CO</span></code> products.</p>
<table border="1" class="colwidths-given docutils">
<colgroup>
<col width="15%" />
<col width="25%" />
<col width="60%" />
</colgroup>
<thead valign="bottom">
<tr class="row-odd"><th class="head">option name</th>
<th class="head">legal values</th>
<th class="head">description</th>
</tr>
</thead>
<tbody valign="top">
<tr class="row-even"><td>co_avk</td>
<td>number_density</td>
<td>whether to ingest the partial column number density column avk (default) for CO or the number density column avk (avk=number_density)</td>
</tr>
</tbody>
</table>
</div>
<div class="section" id="mapping-description">
<h2>Mapping description</h2>
<p>The table below details where and how each variable was retrieved from the input product.</p>
<table border="1" class="docutils">
<colgroup>
<col width="15%" />
<col width="5%" />
<col width="80%" />
</colgroup>
<thead valign="bottom">
<tr class="row-odd"><th class="head">field name</th>
<th class="head" colspan="2">mapping description</th>
</tr>
</thead>
<tbody valign="top">
<tr class="row-even"><td><strong>scan_subindex</strong></td>
<td><em>description</em></td>
<td>the scanline and pixel dimensions are collapsed into a temporal dimension; the index of the pixel within the scanline is computed as the index on the temporal dimension modulo the number of scanlines</td>
</tr>
<tr class="row-odd"><td rowspan="2"><strong>datetime_start</strong></td>
<td><em>path</em></td>
<td><strong>/PRODUCT/time, /PRODUCT/delta_time[]</strong></td>
</tr>
<tr class="row-even"><td><em>description</em></td>
<td>time converted from milliseconds since a reference time (given as seconds since 2010-01-01) to seconds since 2010-01-01 (using 86400 seconds per day); the time associated with a scanline is repeated for each pixel in the scanline</td>
</tr>
<tr class="row-odd"><td rowspan="2"><strong>datetime_length</strong></td>
<td><em>path</em></td>
<td><strong>/&#64;time_coverage_resolution</strong></td>
</tr>
<tr class="row-even"><td><em>description</em></td>
<td>the measurement length is parsed assuming the ISO 8601 ‘PT%(interval_seconds)fS’ format</td>
</tr>
<tr class="row-odd"><td><strong>orbit_index</strong></td>
<td><em>path</em></td>
<td><strong>/&#64;orbit</strong></td>
</tr>
<tr class="row-even"><td rowspan="2"><strong>validity</strong></td>
<td><em>path</em></td>
<td><strong>/PRODUCT/SUPPORT_DATA/DETAILED_RESULTS/processing_quality_flags[]</strong></td>
</tr>
<tr class="row-odd"><td><em>description</em></td>
<td>the uint32 data is cast to int32</td>
</tr>
<tr class="row-even"><td><strong>latitude</strong></td>
<td><em>path</em></td>
<td><strong>/PRODUCT/latitude[]</strong></td>
</tr>
<tr class="row-odd"><td><strong>longitude</strong></td>
<td><em>path</em></td>
<td><strong>/PRODUCT/longitude[]</strong></td>
</tr>
<tr class="row-even"><td><strong>latitude_bounds</strong></td>
<td><em>path</em></td>
<td><strong>/PRODUCT/SUPPORT_DATA/GEOLOCATIONS/latitude_bounds[]</strong></td>
</tr>
<tr class="row-odd"><td><strong>longitude_bounds</strong></td>
<td><em>path</em></td>
<td><strong>/PRODUCT/SUPPORT_DATA/GEOLOCATIONS/longitude_bounds[]</strong></td>
</tr>
<tr class="row-even"><td rowspan="2"><strong>sensor_latitude</strong></td>
<td><em>path</em></td>
<td><strong>/PRODUCT/SUPPORT_DATA/GEOLOCATIONS/satellite_latitude[]</strong></td>
</tr>
<tr class="row-odd"><td><em>description</em></td>
<td>the satellite latitude associated with a scanline is repeated for each pixel in the scanline</td>
</tr>
<tr class="row-even"><td rowspan="2"><strong>sensor_longitude</strong></td>
<td><em>path</em></td>
<td><strong>/PRODUCT/SUPPORT_DATA/GEOLOCATIONS/satellite_longitude[]</strong></td>
</tr>
<tr class="row-odd"><td><em>description</em></td>
<td>the satellite longitude associated with a scanline is repeated for each pixel in the scanline</td>
</tr>
<tr class="row-even"><td rowspan="2"><strong>sensor_altitude</strong></td>
<td><em>path</em></td>
<td><strong>/PRODUCT/SUPPORT_DATA/GEOLOCATIONS/satellite_altitude[]</strong></td>
</tr>
<tr class="row-odd"><td><em>description</em></td>
<td>the satellite altitude associated with a scanline is repeated for each pixel in the scanline</td>
</tr>
<tr class="row-even"><td><strong>solar_zenith_angle</strong></td>
<td><em>path</em></td>
<td><strong>/PRODUCT/SUPPORT_DATA/GEOLOCATIONS/solar_zenith_angle[]</strong></td>
</tr>
<tr class="row-odd"><td><strong>solar_azimuth_angle</strong></td>
<td><em>path</em></td>
<td><strong>/PRODUCT/SUPPORT_DATA/GEOLOCATIONS/solar_azimuth_angle[]</strong></td>
</tr>
<tr class="row-even"><td><strong>sensor_zenith_angle</strong></td>
<td><em>path</em></td>
<td><strong>/PRODUCT/SUPPORT_DATA/GEOLOCATIONS/viewing_zenith_angle[]</strong></td>
</tr>
<tr class="row-odd"><td><strong>sensor_azimuth_angle</strong></td>
<td><em>path</em></td>
<td><strong>/PRODUCT/SUPPORT_DATA/GEOLOCATIONS/viewing_azimuth_angle[]</strong></td>
</tr>
<tr class="row-even"><td rowspan="2"><strong>altitude</strong></td>
<td><em>path</em></td>
<td><strong>/PRODUCT/layer[], /PRODUCT/SUPPORT_DATA/INPUT_DATA/surface_altitude[]</strong></td>
</tr>
<tr class="row-odd"><td><em>description</em></td>
<td>the vertical grid is inverted to make it ascending; height is converted to altitude by adding surface_altitude</td>
</tr>
<tr class="row-even"><td rowspan="2"><strong>pressure_bounds</strong></td>
<td><em>path</em></td>
<td><strong>/PRODUCT/SUPPORT_DATA/DETAILED_RESULTS/pressure_levels[]</strong></td>
</tr>
<tr class="row-odd"><td><em>description</em></td>
<td>the vertical grid is inverted to make it ascending; the lower boundary of each layer is then taken from pressure_levels; the upper boundary is the lower boundary of the layer above or 1e-3 Pa for the upper most layer</td>
</tr>
<tr class="row-even"><td><strong>surface_altitude</strong></td>
<td><em>path</em></td>
<td><strong>/PRODUCT/SUPPORT_DATA/INPUT_DATA/surface_altitude[]</strong></td>
</tr>
<tr class="row-odd"><td><strong>surface_altitude_uncertainty</strong></td>
<td><em>path</em></td>
<td><strong>/PRODUCT/SUPPORT_DATA/INPUT_DATA/surface_altitude_precision[]</strong></td>
</tr>
<tr class="row-even"><td rowspan="2"><strong>surface_pressure</strong></td>
<td><em>path</em></td>
<td><strong>/PRODUCT/SUPPORT_DATA/INPUT_DATA/pressure_levels[]</strong></td>
</tr>
<tr class="row-odd"><td><em>description</em></td>
<td>the surface pressure is the pressure at the lowest pressure level</td>
</tr>
<tr class="row-even"><td><strong>CO_column_number_density</strong></td>
<td><em>path</em></td>
<td><strong>/PRODUCT/carbonmonoxide_total_column[]</strong></td>
</tr>
<tr class="row-odd"><td><strong>CO_column_number_density_uncertainty</strong></td>
<td><em>path</em></td>
<td><strong>/PRODUCT/carbonmonoxide_total_column_precision[]</strong></td>
</tr>
<tr class="row-even"><td><strong>CO_column_number_density_validity</strong></td>
<td><em>path</em></td>
<td><strong>/PRODUCT/qa_value</strong></td>
</tr>
<tr class="row-odd"><td rowspan="4"><strong>CO_number_density_avk</strong></td>
<td><em>available</em></td>
<td>optional</td>
</tr>
<tr class="row-even"><td><em>condition</em></td>
<td>avk=number_density</td>
</tr>
<tr class="row-odd"><td><em>path</em></td>
<td><strong>/PRODUCT/SUPPORT_DATA/DETAILED_RESULTS/column_averaging_kernel[]</strong></td>
</tr>
<tr class="row-even"><td><em>description</em></td>
<td>the vertical grid is inverted to make it ascending</td>
</tr>
<tr class="row-odd"><td rowspan="4"><strong>CO_column_number_density_avk</strong></td>
<td><em>available</em></td>
<td>optional</td>
</tr>
<tr class="row-even"><td><em>condition</em></td>
<td>avk unset</td>
</tr>
<tr class="row-odd"><td><em>path</em></td>
<td><strong>/PRODUCT/SUPPORT_DATA/DETAILED_RESULTS/column_averaging_kernel[]</strong></td>
</tr>
<tr class="row-even"><td><em>description</em></td>
<td>the vertical grid is inverted to make it ascending and each element is divided by 1000 [m] so the column avk can be applied to partial column number density profiles instead of number density profiles</td>
</tr>
<tr class="row-odd"><td><strong>H2O_column_number_density</strong></td>
<td><em>path</em></td>
<td><strong>/PRODUCT/SUPPORT_DATA/DETAILED_RESULTS/water_total_column[]</strong></td>
</tr>
<tr class="row-even"><td><strong>H2O_column_number_density_uncertainty</strong></td>
<td><em>path</em></td>
<td><strong>/PRODUCT/SUPPORT_DATA/DETAILED_RESULTS/water_total_column_precision[]</strong></td>
</tr>
<tr class="row-odd"><td><strong>cloud_height</strong></td>
<td><em>path</em></td>
<td><strong>/PRODUCT/SUPPORT_DATA/DETAILED_RESULTS/height_scattering_layer[]</strong></td>
</tr>
<tr class="row-even"><td><strong>cloud_optical_depth</strong></td>
<td><em>path</em></td>
<td><strong>/PRODUCT/SUPPORT_DATA/DETAILED_RESULTS/scattering_optical_thickness_SWIR[]</strong></td>
</tr>
</tbody>
</table>
</div>
</div>


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