Abstract
A Monte-Carlo model is described which has been developed for calculation of multiply scattered LIDAR returns. Results are shown for the common problem selected by the MUSCLE (MUltiple SCattering LIDAR Experiments) group for intercomparison, which represents a typical ground-based cloud-sensing scenario. This is contrasted with returns from the same cloud sensed by a space-based LIDAR, where multiple-scattering effects are much greater. The magnitude of multiple-scattering effects is seen to be largely determined by the optical depth across the receiver field of view at the cloud.
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M.P. McCormick, D.M. Winker, E.V. Browell, J.A. Coakley, C.S. Gardner, R.M. Hoff, G.S. Kent, S.H. Melfi, R.T. Menzies, C.M.R. Platt, D.A. Randall, J.A. Reagan: Bull. Am. Meteor. Soc.74, 205 (1993)
G.I. Marchuk, G.A. Mikhailov, M.A. Nazaraliev, R.A. Darbinjan, B.A. Kargin, B.S. Elepov:The Monte Carlo Methods in Atmospheric Optics, Springer Ser. Opt. Sci., Vol. 12. (Springer, Berlin, Heidelberg 1980) p. 206
M.H. Kalos, P.A. Whitlock:Monte Carlo Methods, Basics, Vol. 1 (Wiley, New York 1986) p. 186
L. Bissonnette P. Bruscaglioni, A. Ismaelli; G. Zaccanti, A. Cohen, Y. Benayohu, R.D. Haracz, L.D. Cohen, C. Flesia, P. Schwendiman, M. Oppel, D.M. Winker, E.P. Zege, I.L. Katsev, I.N. Polonsky: Appl. Phys. B60, 355 (1995)
L.R. Poole, D.D. Venable, J.W. Campbell: Appl. Opt.20, 3653 (1981)
K.E. Kunkel, J. Weinman: J. Atmos. Sci.33, 1772 (1976)
C.M.R. Platt: J. Atmos. Sci.38, 156 (1981)
P. Bruscaglioni, A. Ismaelli, G. Zaccanti: J. Mod. Opt.39, 1003 (1992)
D. Deirmendjian:Electronmagnetic Scattering on Spherical Poly-dispersions (Elsevier, New York 1969) p. 290