Detection of Cloud-Top Height from Backscattered Radiances within the Oxygen A Band. Part 2: Measurements

J. Fischer GKSS-Forschungszentrum, Geesthacht Germany

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W. Cordes GKSS-Forschungszentrum, Geesthacht Germany

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A. Schmitz-Peiffer DLR, Wessling, Germany.

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W. Renger DLR, Wessling, Germany.

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P. Mörl DLR, Wessling, Germany.

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Abstract

Cloud-top heights were successfully derived from reflected solar radiation measurements within the oxygen A-band absorption. The accuracy of the estimated cloud-top heights was to within 40 meters over stratus clouds when compared with simultaneously taken lidar measurements. Estimations of the cloud optical thickness from reflected radiances at λ = 755 nm are reasonable. Between both cloud optical thickness and cloud-lop height a positive cross correlation was found to be significant at scales up to 5 km, which confirms a relationship between cloud-top height and cloud optical thickness. These experimental musts show the potential of multichannel radiance measurements for the detection of physical cloud properties.

Abstract

Cloud-top heights were successfully derived from reflected solar radiation measurements within the oxygen A-band absorption. The accuracy of the estimated cloud-top heights was to within 40 meters over stratus clouds when compared with simultaneously taken lidar measurements. Estimations of the cloud optical thickness from reflected radiances at λ = 755 nm are reasonable. Between both cloud optical thickness and cloud-lop height a positive cross correlation was found to be significant at scales up to 5 km, which confirms a relationship between cloud-top height and cloud optical thickness. These experimental musts show the potential of multichannel radiance measurements for the detection of physical cloud properties.

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