Correlations among the optical properties of cirrus‐cloud particles: Implications for spaceborne remote sensing | Zendy

Reichardt J. | Zendy; Reichardt S. | Zendy; Behrendt A. | Zendy; McGee T. J. | Zendy

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Correlations among the optical properties of cirrus‐cloud particles: Implications for spaceborne remote sensing

Author(s) -

Reichardt J.,

Reichardt S.,

Behrendt A.,

McGee T. J.

Publication year - 2002

Publication title -

geophysical research letters

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 2.007

H-Index - 273

eISSN - 1944-8007

pISSN - 0094-8276

DOI - 10.1029/2002gl014836

Subject(s) - cirrus , lidar , backscatter (email) , middle latitudes , depolarization ratio , environmental science , remote sensing , extinction (optical mineralogy) , atmospheric sciences , arctic , geology , optics , physics , computer science , telecommunications , oceanography , wireless

Lidar measurements of Arctic (67.9°N) cirrus clouds reveal a strong positive correlation between particle depolarization ratio and extinction‐to‐backscatter (lidar) ratio for ambient cloud temperatures above ∼−45°C, and an anti‐correlation for colder temperatures. Similar correlations are evident in a 2‐year midlatitude (53.5°N) cirrus data set. These data suggest that robust relationships may exist between these particle optical properties that will facilitate the retrieval of cirrus extinction profiles from polarization‐sensitive (spaceborne) elastic‐backscatter lidars.

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