| [1] | Raphael Aronson. General solution for polarized radiation in a homogeneous-slab atmosphere. The Astrophysical Journal, 177:411--421, October 1972. [ DOI ] |
| [2] | T. Nakajima and M. Tanaka. Matrix formulation for the transfer of solar radiation in a plane-parallel scattering atmosphere. Journal of Quantitative Spectroscopy and Radiative Transfer, 35(1):13--21, 1986. [ DOI ] |
| [3] | Alexander G. Voronovich, Albin J. Gasiewski, and Bob L. Weber. A fast multistream scattering-based jacobian for microwave radiance assimilation. IEEE Transactions on Geoscience and Remote Sensing, 42(8):1749--1761, August 2004. [ DOI ] |
| [4] | R. J. D. Spurr and M. J. Christi. Linearization of the interaction principle: Analytic jacobians in the “Radiant” model. Journal of Quantitative Spectroscopy and Radiative Transfer, 103:431--446, 2007. [ DOI ] |
| [5] | Kuo-Nan Liou. A numerical experiment on Chandrasekhar's discrete-ordinate method for radiative transfer: Applications to cloudy and hazy atmospheres. Journal of the Atmospheric Sciences, 30:1303--1326, October 1973. [ DOI ] |
| [6] | Knut Stamnes, Si-Chee Tsay, Warren Wiscombe, and Kolf Jayaweera. Numerically stable algorithm for discrete-ordinate-method radiative transfer in multiple scattering and emitting layered media. Applied Optics, 27(12):2502--2509, June 1988. [ DOI ] |
| [7] | C. E. Siewert. A concise and accurate solution to Chandrasekher's basic problem in radiative transfer. Journal of Quantitative Spectroscopy and Radiative Transfer, 64:109--130, 2000. [ DOI ] |
| [8] | R. J. D. Spurr, T. P. Kurosu, and K. V. Chance. A linearized discrete ordinate radiative transfer model for atmospheric remote-sensing retrieval. Journal of Quantitative Spectroscopy and Radiative Transfer, 68:689--735, 2001. [ DOI ] |
| [9] | A. Doicu and T. Trautmann. Discrete-ordinate method with matrix exponential for a pseudo-spherical atmosphere: Scalar case. Journal of Quantitative Spectroscopy and Radiative Transfer, 110:146--158, 2009. [ DOI ] |
| [10] | A Doicu and T Trautmann. Discrete-ordinate method with matrix exponential for a pseudo-spherical atmosphere: Vector case. Journal of Quantitative Spectroscopy and Radiative Transfer, 110:159--172, 2009. [ DOI ] |
| [11] | I. P. Grant and G. E. Hunt. Discrete space theory of radiative transfer I. Fundamentals. Proceedings of the Royal Society. Series A: Mathematical and Physical Sciences, 313:183--197, 1969. [ DOI ] |
| [12] | Gilbert N. Plass, George Kattawar, and Frances E. Catchings. Matrix operator theory of radiative transfer. 1: Rayleigh scattering. Applied Optics, 12(2):314--329, February 1973. [ DOI ] |
| [13] | J. F. de Haan, P. B. Bosma, and J. W. Hovenier. The adding method for multiple scattering caculations of polarized light. Astronomy and Astrophysics, 183:371--391, 1987. |
| [14] | Greg McGarragh and Philip Gabriel. Efficient computation of radiances and for optically thin media by Padé approximants. Journal of Quantitative Spectroscopy and Radiative Transfer, 111:1885--1889, 2010. [ DOI ] |
| [15] | Greg McGarragh and Philip Gabriel. A new vector radiative transfer solution using Padé approximants. Journal of Quantitative Spectroscopy and Radiative Transfer, 119:12--22, 2013. [ DOI ] |
| [16] | A. L. Fymat and Sueo Ueno. Order-of-scattering of partially polarized radiation in inhomogeneous anisotropically scattering atmospheres I: Fundamentals. Astrophysics and Space Science, 30:3--25, 1974. [ DOI ] |
| [17] | Qilong Min and Minzheng Duan. Successive order of scattering model for solving vector radiative transfer in the atmosphere. Journal of Quantitative Spectroscopy and Radiative Transfer, 87:243--259, 2004. [ DOI ] |
| [18] | J. Lenoble, M. Herman, J. L. Deuzé, B. Lafrance, R. Santer, and D. Tanré. A successive order of scattering code for solving the vector equation of transfer in the earth's atmosphere with aerosols. Journal of Quantitative Spectroscopy and Radiative Transfer, 107:479--507, 2007. [ DOI ] |
| [19] | Kiyoshi Kawabata and Sueo Ueno. The first three orders of scattering in vertically inhomogeneous scattering-absorbing media. Astrophysics and Space Science, 150:327--344, 1988. [ DOI ] |
| [20] | Vijay Natraj and Robert J. D. Spurr. A fast linearized pseudo-spherical two orders of scattering model to account for polarization in vertically inhomogeneous scattering-absorbing media. Journal of Quantitative Spectroscopy and Radiative Transfer, 107:263--293, 2007. [ DOI ] |
| [21] | James A. Coakley, Jr. and Peter Chýlek. The two-stream methods in radiative transfer: Including the angle of the incident radiation. Journal of the Atmospheric Sciences, 32(2):409--418, February 1975. [ DOI ] |
| [22] | W. E. Meador and W. R. Weaver. Two-stream methods to radiative transfer in planetary atmospheres: A unified description of existing methods and a new improvement. Journal of the Atmospheric Sciences, 37:630--643, March 1980. [ DOI ] |
| [23] | R. Spurr and V. Natraj. A linearized two-stream radiative transfer code for fast approximation of multiple-scatter fields. Journal of Quantitative Spectroscopy and Radiative Transfer, 112:2630--2637, 2011. [ DOI ] |
| [24] | K. N. Liou, S. C. Ou, Y. Takano, and Q. Liu. A polarized delta-four-stream approximation for infrared and microwave radiative transfer: Part I. Journal of the Atmospheric Sciences, 62(7):2542--255, July 2005. [ DOI ] |
| [25] | Roeland F. van Oss and Robert J.D. Spurr. Fast and accurate 4 and 6 stream linearized discrete ordinate radiative transfer models for ozone profile retrieval. Journal of Quantitative Spectroscopy and Radiative Transfer, 75:177--220, 2002. [ DOI ] |
| [26] | W. J. Wiscombe. The delta-m method: Rapid yet accurate radiative flux calculations for strongly asymmetric phase functions. Journal of the Atmospheric Sciences, 34:1408--1422, September 1977. [ DOI ] |
| [27] | T. Nakajima and M. Tanaka. Algorithms for radiative intensity calculations in moderately thick atmospheres using a truncation approximation. Journal of Quantitative Spectroscopy and Radiative Transfer, 40(1):51--69, 1988. [ DOI ] |
| [28] | Arne Dahlback and Knut Stamnes. A new spherical model for computing the radiation field available for photolysis and heating at twilight. Planetary and Space Science, 39(5):671--683, 1991. [ DOI ] |
| [29] | Robert J. D. Spurr. A new approach to the retrieval of surface properties from earthshine measurements. Journal of Quantitative Spectroscopy and Radiative Transfer, 83:15--46, 2004. [ DOI ] |
| [30] | Philip Gabriel, Matthew J. Christi, and Graeme L. Stephens. Calculation of Jacobians for inverse radiative transfer: An efficient hybrid method. Journal of Quantitative Spectroscopy and Radiative Transfer, 97:209--227, 2006. [ DOI ] |
This file was generated by bibtex2html 1.98.