IEEE Journal of Microwaves (Jan 2024)

Remote Sensing of Ice Cloud Properties With Millimeter and Submillimeter-Wave Polarimetry

  • Dong L. Wu,
  • Jie Gong,
  • William R. Deal,
  • Willian Gaines,
  • Caitlyn M. Cooke,
  • Giovanni De Amici,
  • Peter Pantina,
  • Yuli Liu,
  • Ping Yang,
  • Patrick Eriksson,
  • Ralf Bennartz

DOI
https://doi.org/10.1109/JMW.2024.3487758
Journal volume & issue
Vol. 4, no. 4
pp. 847 – 857

Abstract

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Ice clouds are poorly constrained in current global climate and weather models and have been used as a tuning parameter in the models to balance radiation budget at the top of atmosphere and precipitation at the surface. Sub-millimeter-wave (Submm) remote sensing can fill the sensitivity gap of cloud ice observations between visible/infrared (VIS/IR) and microwave (MW) frequencies. The added value from submm-wave bands has been recognized for achieving a better understanding of cloud, convection and precipitation (CCP) processes. Recent satellite observations at microwave frequencies showed promising results that additional information on cloud microphysical properties (e.g., ice particle shape and orientation) can be inferred from V-pol and H-pol radiances. Motivated by the added value from cloud polarimeters, a compact SWIRP (Submm-Wave and Long-Wave InfraRed Polarimeter) was developed under NASA's Instrument Incubator Program (IIP) to reduce instrument size, weight, power (SWaP) for future Earth science missions. Low-SWaP sensors like SWIRP will allow the cost-effective implementation of a distributed observing system to study fast cloud processes with the needed spatiotemporal sampling.

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