Matrix-doubling formulation of internal emission from a layer with irregular boundaries

Hyo Joon Eom; Yoshio Yamaguchi; Wolfgang-Martin Boerner

doi:10.1117/12.140630

12 February 1993 Matrix-doubling formulation of internal emission from a layer with irregular boundaries

Hyo Joon Eom, Yoshio Yamaguchi, Wolfgang-Martin Boerner

Proceedings Volume 1748, Radar Polarimetry; (1993) https://doi.org/10.1117/12.140630
Event: San Diego '92, 1992, San Diego, CA, United States

Abstract

A formulation for internal emission from a thermal scattering layered medium with irregular boundaries is developed. The matrix doubling method is utilized to obtain the upward and downward thermal intensities inside the scattering layer. The scattering layer is assumed to be a slab imbedded with randomly-positioned thermal scattering particles, and the layer top and bottom boundaries are assumed to be random rough surfaces. The developed emission model may be used for the understanding of the internal emission problem where a radiometer is located inside an emitting medium with irregular rough boundaries.

Citation Download Citation

Hyo Joon Eom, Yoshio Yamaguchi, and Wolfgang-Martin Boerner "Matrix-doubling formulation of internal emission from a layer with irregular boundaries", Proc. SPIE 1748, Radar Polarimetry, (12 February 1993); https://doi.org/10.1117/12.140630

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