New Microwave Radiometer Retrieval Data Now Available

 
Published: 25 September 2023

This is a collection of three quicklook panels from the Microwave Radiometer Retrievals (MWRRET) value-added product on June 22, 2022, during the TRACER campaign. There are peaks in brightness temperature, precipitable water vapor, and liquid water path right before 16:00 GMT.
This Microwave Radiometer Retrievals (MWRRET) quicklook image provides information from the TRacking Aerosol Convection interactions ExpeRiment (TRACER) near Houston, Texas, on June 22, 2022. The image shows, from top to bottom, observed brightness temperatures at 23.8 GHz (blue) and 31.4 GHz (red); retrieved precipitable water vapor from the physical method (blue) and statistical method (green); and retrieved liquid water path from the physical method (blue) and statistical method (green).

New level 2 (c2) files are now available from the Microwave Radiometer Retrievals value-added product (MWRRET VAP). This release covers the 2021–2022 TRacking Aerosol Convection interactions ExpeRiment (TRACER) near Houston, Texas, and all of 2022 at ARM’s North Slope of Alaska atmospheric observatory.

MWRRET retrieves column precipitable water vapor and liquid water path—both important variables to understanding radiative transfer in the atmosphere and clouds—from ARM’s 2-channel microwave radiometers (23.8 and 31.4 GHz). The VAP uses a physical retrieval methodology that provides improved retrievals over the standard statistical coefficient method.

MWRRET has two stages of processing data from ARM’s fixed-location observatories. In the first stage, the VAP is run in near-real time to produce timely operational .c1-level files. The second stage of processing, which produces .c2-level files, is run yearly. During this stage, improved offsets are applied to the 23.8 GHz channel, improving the precipitable water vapor retrievals. In addition, this stage uses cloud vertical extent information from the Active Remote Sensing of CLouds (ARSCL) VAP rather than ceilometer data to get the correct temperature of the liquid water layers in the atmosphere.

For the TRACER mobile facility deployment, MWRRET ran at the end of the campaign, and data were immediately processed as c2.

When available, .c2-level files should be used because they are expected to be the most accurate.

More information on MWRRET can be found on the VAP web page. Feedback on the VAP can be sent to ARM translator Damao Zhang.

Access these data in the ARM Data Center. (To download the data, create an ARM account.)

To cite the MWRRET data, please use doi:10.5439/1027369.

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ARM is a DOE Office of Science user facility operated by nine DOE national laboratories.