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Thermal Infrared (3–14 μm) bidirectional reflectance measurements of sands and soils

✍ Scribed by William C. Snyder; Zhengming Wan; Yulin Zhang; Yue-Zhang Feng

Publisher
Elsevier Science
Year
1997
Tongue
English
Weight
796 KB
Volume
60
Category
Article
ISSN
0034-4257

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✦ Synopsis

Recent day~night land surface temperature (LST) algorithms can recover both emissivity and temperature but require some assumptions about the relative optical properties of natural 7~zterials in the therw~al infrared. We constructed a goniometer and nwasured the spectral, angular emissivity, and bidirectional reflectance of sands and soils" in the 3-14 ¢tm range. In this paper, we present the ,results for five diverse surfaces and examine the validity of the LST assumptions. We conclude that the change in emissivity with angle was small across the entire range for all of the materials except sand, In addition, for all of the materials, the measured variation in bidirectional reflectance anisotropy with wavelength was small enough to neglect.

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