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- Title
Detection of Ice Hydrometeor Alignment Using an Airborne W-band Polarimetric Radar.
- Authors
Galloway, J.; Pazmany, A.; Mead, J.; McIntosh, R.E.; Leon, D.; French, J.; Kelly, R.; Vali, G.
- Abstract
This paper presents airborne W-band polarimetric radar measurements at horizontal and vertical incidence on ice clouds using a 95-GHz radar on the University of Wyoming King Air research aircraft. Coincident, in situ measurements from probes on the King Air make it possible to interpret polarimetric results in terms of hydrometeor composition, phase, and orientation. One of the key polarimetric measurements recently added to those possible with the W-band radar data system is the copolar correlation coefficient p[subHV]. A discussion of the relation between cloud scattering properties and p[subHV] covers a test for isotropy of the distribution of observed hydrometeors in the plane of polarization and qualitative evaluation of the possible impact of Mie (resonant) scattering on p[subHV] measurements made at W band. Prior measurements of p[subHV] at S band and Ku band are compared with the W-band results. The technique used to measure p[subHV], including the real-time and postprocessing steps required, is explained, with a discussion of the expected measurement error for the magnitude and phase of p[subHV]. Cloud data presented include melting-layer observations at vertical incidence, observation of a convective snow cell at vertical incidence, and observations of needle crystals at both horizontal and vertical incidence. The melting layer observations provide a consistency check for the measurements of p[subHV] and linear depolarization ratio (LDR) at W band through the test for isotropy. The vertical incidence measurements of a convective snow cell displayed significant mean orientation of the hydrometeors observed in the features evident in Z[subDR] and the phase of p[subHV]. Data taken on needle crystals provided clear indication of particle alignment in the measurements of Z[subDR] and LDR for the horizontal incidence case and equally clear indication of a lack of orientation for the vertical incidence case.
- Subjects
HYDROMETEOROLOGY; RADAR in earth sciences; ICE clouds
- Publication
Journal of Atmospheric & Oceanic Technology, 1997, Vol 14, Issue 1, p3
- ISSN
0739-0572
- Publication type
Article
- DOI
10.1175/1520-0426(1997)014<0003:DOIHAU>2.0.CO;2