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MWR

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mwr: Microwave Radiometer

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.

Measurements

Liquid water content
Liquid water path
Microwave narrowband brightness temperature
Precipitable water

Locations

  • Fixed
  • AMF1
  • AMF2
  • AMF3

Related Publications

2019

Tjernström M, M Shupe, I Brooks, P Achtert, J Prytherch, and J Sedlar. 2019. "Arctic Summer Airmass Transformation, Surface Inversions, and the Surface Energy Budget." Journal of Climate, 32(3), 10.1175/JCLI-D-18-0216.1.

Schiro K and J Neelin. 2019. "Deep Convective Organization, Moisture Vertical Structure and Convective Transition using Deep-Inflow Mixing." Journal of the Atmospheric Sciences, , 10.1175/JAS-D-18-0122.1. ONLINE.

Zeng X, G Skofronick-Jackson, L Tian, A Emory, W Olson, and R Kroodsma. 2019. "Analysis of the Global Microwave Polarization Data of Clouds." Journal of Climate, 32(1), 10.1175/JCLI-D-18-0293.1.

2018

Wu P, B Xi, X Dong, and Z Zhang. 2018. "Evaluation of autoconversion and accretion enhancement factors in general circulation model warm-rain parameterizations using ground-based measurements over the Azores." Atmospheric Chemistry and Physics, 18(23), 10.5194/acp-18-17405-2018.

Mason S, C Chiu, R Hogan, D Moisseev, and S Kneifel. 2018. "Retrievals of Riming and Snow Density From Vertically Pointing Doppler Radars." Journal of Geophysical Research: Atmospheres, 123(24), 10.1029/2018JD028603.

Fast J, L Berg, L Alexander, D Bell, E D’Ambro, J Hubbe, C Kuang, J Liu, C Long, A Matthews, F Mei, R Newsom, M Pekour, T Pinterich, B Schmid, S Schobesberger, J Shilling, J Smith, S Springston, K Suski, J Thornton, J Tomlinson, J Wang, H Xiao, and A Zelenyuk. 2018. "Overview of the HI-SCALE Field Campaign: A New Perspective on Shallow Convective Clouds." Bulletin of the American Meteorological Society, , 10.1175/BAMS-D-18-0030.1. ONLINE.

Angevine W, J Olson, J Kenyon, W Gustafson, S Endo, K Suselj, and D Turner. 2018. "Shallow cumulus in WRF parameterizations evaluated against LASSO large-eddy simulations." Monthly Weather Review, 146(12), 10.1175/MWR-D-18-0115.1.

Naud C, J Booth, and F Lamraoui. 2018. "Post Cold Frontal Clouds at the ARM Eastern North Atlantic Site: An Examination of the Relationship Between Large-Scale Environment and Low-Level Cloud Properties." Journal of Geophysical Research: Atmospheres, 123(21), 10.1029/2018JD029015.
Research Highlight

Koch S, M Fengler, P Chilson, K Elmore, B Argrow, D Andra, and T Lindley. 2018. "On the Use of Unmanned Aircraft for Sampling Mesoscale Phenomena in the Preconvective Boundary Layer." Journal of Atmospheric and Oceanic Technology, 35(11), 10.1175/JTECH-D-18-0101.1.

Ghate V, P Kollias, S Crewell, A Fridlind, T Heus, U Löehnert, M Maahn, G McFarquhar, D Moisseev, M Oue, M Wendisch, and C Williams. 2018. "The Second ARM Training and Science Application Event: Training the Next Generation of Atmospheric Scientists." Bulletin of the American Meteorological Society, , 10.1175/BAMS-D-18-0242.1.

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