MWR

mwr > Microwave RadiometerInstrument Type(s) > Baseline • External • Guest

The microwave radiometer (MWR) provides time-series measurements of column-integrated amounts of water vapor and liquid water. The instrument itself is a sensitive microwave receiver that detects the microwave emissions of the vapor and liquid water molecules in the atmosphere at two frequencies: 23.8 and 31.4 GHz.

Integrated water vapor and liquid water path are derived from radiance measurements with a statistical retrieval algorithm that uses monthly derived and location-dependent linear regression coefficients.

Primary Derived Measurements

Locations

Fixed
AMF1
AMF2
AMF3

Active Locations

Facility Name	Start Date
Central Facility, Barrow AK	1998-01-02
Houston, TX; Supplemental Facility 3 for ANC: upwind site for summer iop	2022-05-13
Gunnison, CO; AMF2 (main site for SAIL)	2021-07-07
Central Facility, Lamont, OK	1993-07-21
Peckham, OK (Extended)	2019-09-18
Houston, TX; AMF1 (main site for TRACER)	2021-08-04

Related Publications

2022

Kalmus P, C Ao, K Wang, M Manzi, and J Teixeira. 2022. "A high-resolution planetary boundary layer height seasonal climatology from GNSS radio occultations." Remote Sensing of Environment, 276, 113037, 10.1016/j.rse.2022.113037.

Van Weverberg K and C Morcrette. 2022. "Sensitivity of Cloud‐Radiative Effects to Cloud Fraction Parametrizations in Tropical, Mid‐Latitude and Arctic Kilometre‐Scale Simulations." Quarterly Journal of the Royal Meteorological Society, , 10.1002/qj.4325.

Geerts B, S Giangrande, G McFarquhar, L Xue, S Abel, J Comstock, S Crewell, P DeMott, K Ebell, P Field, T Hill, A Hunzinger, M Jensen, K Johnson, T Juliano, P Kollias, B Kosovic, C Lackner, E Luke, C Lüpkes, A Matthews, R Neggers, M Ovchinnikov, H Powers, M Shupe, T Spengler, B Swanson, M Tjernström, A Theisen, N Wales, Y Wang, M Wendisch, and P Wu. 2022. "The COMBLE campaign: a study of marine boundary-layer clouds in Arctic cold-air outbreaks." Bulletin of the American Meteorological Society, , 10.1175/BAMS-D-21-0044.1.

Yang J, Y Zhang, Z Wang, and D Zhang. 2022. "Cloud Type and Life Stage Dependency of Liquid–Ice Mass Partitioning in Mixed-Phase Clouds." Remote Sensing, 14(6), 10.3390/rs14061431.

Shupe M, M Rex, B Blomquist, P Persson, J Schmale, T Uttal, D Althausen, H Angot, S Archer, L Bariteau, I Beck, J Bilberry, S Bucci, C Buck, M Boyer, Z Brasseur, I Brooks, R Calmer, J Cassano, V Castro, D Chu, D Costa, C Cox, J Creamean, S Crewell, S Dahlke, E Damm, G de Boer, H Deckelmann, K Dethloff, M Dütsch, K Ebell, A Ehrlich, J Ellis, R Engelmann, A Fong, M Frey, M Gallagher, L Ganzeveld, R Gradinger, J Graeser, V Greenamyer, H Griesche, S Griffiths, J Hamilton, G Heinemann, D Helmig, A Herber, C Heuzé, J Hofer, T Houchens, D Howard, J Inoue, H Jacobi, R Jaiser, T Jokinen, O Jourdan, G Jozef, W King, A Kirchgaessner, M Klingebiel, M Krassovski, T Krumpen, A Lampert, W Landing, T Laurila, D Lawrence, M Lonardi, B Loose, C Lüpkes, M Maahn, A Macke, W Maslowski, C Marsay, M Maturilli, M Mech, S Morris, M Moser, M Nicolaus, P Ortega, J Osborn, F Pätzold, D Perovich, T Petäjä, C Pilz, R Pirazzini, K Posman, H Powers, K Pratt, A Preußer, L Quéléver, M Radenz, B Rabe, A Rinke, T Sachs, A Schulz, H Siebert, T Silva, A Solomon, A Sommerfeld, G Spreen, M Stephens, A Stohl, G Svensson, J Uin, J Viegas, C Voigt, P von der Gathen, B Wehner, J Welker, M Wendisch, M Werner, Z Xie, and F Yue. 2022. "Overview of the MOSAiC expedition—Atmosphere." Elementa: Science of the Anthropocene, 10(1), 10.1525/elementa.2021.00060.
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