Том 16, номер 03, статья № 15

Шрейер Ф., Боттгер У. Line-by-line код для вычислений инфракрасного атмосферного излучения, включая производные. // Оптика атмосферы и океана. 2003. Т. 16. № 03. С. 288-294.    PDF
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Аннотация:

Комплект программ MIRART (молекулярное инфракрасное атмосферное излучение и пропускание) для вычислений с высоким разрешением и переноса инфракрасного излучения в атмосфере был создан с акцентом на эффективность и надежность численных алгоритмов и модульный подход, удобный для прямых вычислений и(или) восстановления спектров в различных приложениях. Этот код был тщательно проверен. Молекулярные весовые функции получены с помощью автоматического дифференцирования.

Список литературы:

1. Englert C., Schimpf B., Birk M., Schreier F., Krocka M., Nitsche R.G., Titz R.U., and Summers M.E. The 2.5 THz heterodyne spectrometer THOMAS: Measurement of OH in the middle atmosphere and comparison with photochemical model results. J. Geophys. Res., 105:22211-22223, 2000.
2. Birk M., Hausamann D., Schreier F., and Wagner G. High resolution infrared laboratory spectroscopy of atmospheric constituents at DLR / J. Demaison, K. Sarka, and E.A. Cohen, editors, Spectroscopy from Space, vol. 20 of NATO Science Series II, p. 219-233. Kluwer Academic Publishers, 2001.
3. Haschberger P. and Lindermeir E. Spectrometric inflight measurement of aircraft exhaust emissions. J. Geophys. Res., 101:25995-26006, 1996.
4. Tank V., Haschberger P., Bochter K., Oertel D., Beier K., Schreier F., Birk M., Lindermeir E., and Wagner G. Spectroscopic measurements from space with the FOCUS sensor system to analyse gas and smoke properties of high temperature events / J. Demaison, K. Sarka, and E.A. Cohen, editors, Spectroscopy from Space, vol. 20 of NATO Science Series II, p. 259-273. Kluwer Academic Publishers, 2001.
5. Clough S.A., Kneizys F.X., Anderson G.P., Shettle E.P., Chetwynd J.H., Abreu L.W., Hall L.A., and Worsham R.D. FASCOD3: spectral simulation / J. Lenoble and J.F. Geleyn, editors, IRS'88: Current Problems in Atmospheric Radiation, p. 372-375. A. Deepak Publishing, 1988.
6. Edwards D.P. Atmospheric transmittance and radiance calculations using line-by-line computer models. Proc. SPIE, 928:94-116, 1988. Modelling of the Atmosphere.
7. Kuo-Nan Liou. An Introduction to Atmospheric Radiation. Academic Press, Orlando, 1980.
8. Schreier F. The Voigt and complex error function: A comparison of computational methods. J. Quant. Spectrosc. Radiat. Transfer, 48:743-762, 1992.
9. Humlicek J. Optimized computation of the Voigt and complex probability function. J. Quant. Spectrosc. Radiat. Transfer, 27:437-444, 1982.
10. Hui A.K., Armstrong B.H., and Wray A.A. Rapid computation of the Voigt and complex error functions. J. Quant. Spectrosc. Radiat. Transfer, 19:509-516, 1978.
11. Fomin B.A. Effective interpolation technique for line-by-line calculation of radiation absorption in gases. J. Quant. Spectrosc. Radiat. Transfer, 53:663-669, 1995.
12. Kuntz M. and H opfner M. Efficient line-by-line calculation of absorption coefficients. J. Quant. Spectrosc. Radiat. Transfer, 63:97-114, 1999.
13. Rothman L.S., Rinsland C.P., Goldman A., Massie S.T., Edwards D.P., Flaud J.-M., Perrin A., Camy-Peyret C., Dana V., Mandin J.-Y., Schroeder J., McCann A., Gamache R.R., Wattson R.B., Yoshino K., Chance K.V., Jucks K.W., Brown L.R., Nemtchinov V., and Varanasi P. The HITRAN molecular spectroscopic database and HAWKS (Hitran Atmospheric Workstation): 1996 edition. J. Quant. Spectrosc. Radiat. Transfer, 60:665-710, 1998.
14. Rothman L.S., Wattson R.B., Gamache R.R., Schroeder J., and McCann A. HITRAN HAWKS and HITEMP high temperature molecular database. Proc. SPIE, 2471:105-111, 1995.
15. Jacquinet-Husson H., Ari e E., Ballard J., Barbe A., Bjoraker G., Bonnet B., Brown L.R., Camy-Peyret C., Champion J.-P., Ch edin A., Chursin A., Clerbaux C., Duxbury G., Flaud J.-M., Fourri e N., Fayt A., Graner G., Gamache R., Goldman A., Golovko Vl., Guelachvili G., Hartmann J.M., Hilico J.C., Hillman J., Lef evre G., Lellouch E., Mikhailenko S.N., Naumenko O.V., Nemtchinov V., Newnham D.A., Nikitin A., Orphal J., Perrin A., Reuter D.C., Rinsland C.P., Rosenmann L., Rothman L.S., Scott N.A., Selby J., Sinitsa L.N., Sirota J.M., Smith A.M., Smith K.M., Tyuterev Vl.G., Tipping R.H., Urban S., Varanasi P., and Weber M. The 1997 spectroscopic GEISA databank. J. Quant. Spectrosc. Radiat. Transfer, 62:205-254, 1999.
16. Pickett H.M., Poynter R.L., Cohen E.A., Delitsky M.L., Pearson J.C., and M uller H.S.P. Submillimeter, millimeter, and microwave spectral line catalog. J. Quant. Spectrosc. Radiat. Transfer, 60:883-890, 1998.
17. Clough S.A., Kneizys F.X., and Davies R. Line shape and the water vapor continuum. Atmos. Res., 23:229-241, 1989.
18. Echle G. Study of the retrieval of atmospheric trace gas profiles from infrared spectra. Draft report on task 1: Continuum, ESA Contract 12055/96/NL/CN, 1997.
19. Norton R.H. and Rinsland C.P. ATMOS data processing and science analysis methods. Appl. Opt., 30:389-400, 1991.
20. Davis Ph.J. and Rabinowitz Ph. Numerical Integration. Blaisdell Publishing Company, 1967.
21. Kahaner D., Moler C., and Nash S. Numerical Methods and Software. Prentice-Hall, Englewood Cliff's, NJ, 1989.
22. SLATEC. Common Mathematical Library (Version 4.1). Available from NetLib, http://www.netlib.org/, July 1993.
23. Lawson C.L., Hanson R.J., Kincaid D.R., and Krogh F.T. Basic Linear Algebra Subprograms for Fortran usage. ACM Trans. Math. Soft., 5(3):308-323, 1979.
24. Clarmann T., von, H opfner M., Funke B., L opez-Puertas M., Dudhia A., Jay V., Schreier F., Ridolfi M., Ceccherini S., Kerridge B.J., Reburn J., and Siddans R. Modeling of atmospheric mid-infrared radiative transfer: The AMIL2DA algorithm intercomparison experiment. J. Quant. Spectrosc. Radiat. Transfer, 2002. In press.
25. Buehler S., Emde C., Eriksson P., Jiminez C., Kasai Y., Kopp G., Koulev N., Kuhn T., Lemke O., Melsheimer C., Miao J., Murtagh D., Ochiai S., Schreier F., Sreerekha T.R., Takahashi C., Tsujimaru S., Urban J., John V.O., and Verdes C. Intercomparison of radiative transfer models. 2002. manuscript in preparation.
26. Gill P.E., Murray W., and Wright M.H. Practical Optimization. Academic Press, London, UK, 1981.
27. Griewank A. and Corliss G., editors. Automatic Differentiation of Algorithms. SIAM, Philadelphia, PA, 1991.
28. Griewank A. Evaluating Derivatives: Principles and Techniques of Algorithmic Differentiation. SIAM, Philadelphia, PA, 2000.
29. Bischof Ch., Khademi R., Mauer A., and Carle A. Adifor 2.0: Automatic differentiation of Fortran-77 programs. Computational Science & Engineering, 3(3):18-32, 1996.
30. Ernst T., Rother T., Schreier F., Wauer J., and Balzer W. DLR's Virtual Lab: Scientific software just a mouse click away. Computing in Science & Engineering, 5 (1), Jan/Feb 2003.
31. Stiller G.P., Clarmann T., von, Funke B., Glatthor N., Hase F., H opfner M., and Linden A. Sensitivity of trace gas abundances retrievals from infrared limb emission spectra to simplifying approximations in radiative transfer modelling. J. Quant. Spectrosc. Radiat. Transfer, 72:249-280, 2002.