Jin Yaqiu, Wei Jian, Xiao Ping. QUANTITATIVE APPROACH TO SCATTERING AND THERMAL EMISSION OF SNOW ICE[J]. Journal of Electronics & Information Technology, 1992, 14(5): 537-540.
Citation:
Jin Yaqiu, Wei Jian, Xiao Ping. QUANTITATIVE APPROACH TO SCATTERING AND THERMAL EMISSION OF SNOW ICE[J]. Journal of Electronics & Information Technology, 1992, 14(5): 537-540.
Jin Yaqiu, Wei Jian, Xiao Ping. QUANTITATIVE APPROACH TO SCATTERING AND THERMAL EMISSION OF SNOW ICE[J]. Journal of Electronics & Information Technology, 1992, 14(5): 537-540.
Citation:
Jin Yaqiu, Wei Jian, Xiao Ping. QUANTITATIVE APPROACH TO SCATTERING AND THERMAL EMISSION OF SNOW ICE[J]. Journal of Electronics & Information Technology, 1992, 14(5): 537-540.
By using an image of snow sample, the correlation function and correlation length were obtained experimentally. Then the effective radius of discrete spherical scat-terer in the radiative transfer model was determined. By solving the vector radiative transfer equation for a slab of densely-distributed scatterers, the polarized brightness temperatures, including multiple scattering effect, from a layer of snow were numerically calculated, and favorably compared with the measurements from spaceborne remote sensing.
曾亮,金亚秋,物理学进展,10(1990)1,57-99.[2]A. Stogryn, IEEE Trans. on GR, GR-7.2(1984)2, 150-154.[3]A. Range, A. Chang, J. L. Foster, Nodic Hydrology, 10(1979)1, 25-40.[4]J, C. Shiue et al., Remote sensing of snowpack with microwave radiometers for hydrologic application, proc. 12th Int. Symp. Rem. Rem. Sens. Enviren., Vol. 2, Ann. Arbor. (1978), no. 877-886.
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