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Giuranna, Marco (2008) Composition and mechanisms of accumulation of ices over the Martian polar caps through analysis of PFS/MEX observations. [Ph.D. thesis]

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Abstract (english)

The composition and the mechanisms of accumulation of ices over the Martian polar caps have been studied through the analysis of PFS/MEX observations.
Circulation in the polar night is a result of complex dynamical processes, such as transient eddies and quasi-stazionary planetary waves, which force two distinct regional climates over the south polar region.
New insights in the explanation of the South Residual Polar Cap asymmetry, a major Martian curiosity from many years, have been finally provided.

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EPrint type:Ph.D. thesis
Tutor:Bernacca, PierLuigi
Supervisor:Formisano, Vittorio
Data di deposito della tesi:31 January 2008
Anno di Pubblicazione:31 January 2008
Key Words:Mars, polar Caps; Mars, Circulation; Polar caps, composition.
Settori scientifico-disciplinari MIUR:Area 02 - Scienze fisiche > FIS/05 Astronomia e astrofisica
Struttura di riferimento:Centri > Centro Interdipartimentale di ricerca di Studi e attività  spaziali "G. Colombo" (CISAS)
Codice ID:820
Depositato il:03 Nov 2008
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1. Aharonson, O., Zuber, M.T., Smith, D.E., Neumann, G.A., Feldman, W.C., Prettyman, T.H. (2004) Depth, distribution, and density of CO2 deposition on Mars, J. Geophys. Res., 109 (E5), E05004. Cerca con Google

2. Banfield, D., Conrath, B. J., Smith, M. D., Christensen, P. R., and John Wilson, R. (2003) Forced waves in the Martian atmosphere from MGS TES nadir data, Icarus, 161, 319–345. Cerca con Google

3. Banfield, D., Conrath, B. J., Gierasch, P. J., Wilson, R. John, Smith, M. D. (2004) Traveling waves in the martian atmosphere from MGS TES Nadir data, Icarus, 170, 365–403. Cerca con Google

4. Barnes, J. R. (1980) Time Spectral Analysis of Midlatitude Disturbances in the Martian Atmosphere, J. Atmos. Sci., 37, 2002–2015. Cerca con Google

5. Barnes, J. R. (1981) Midlatitude Disturbances in the Martian Atmosphere: A Second Mars Year, J. Atmos. Sci., 38, 225–234. Cerca con Google

6. Barnes, J. R., J. Pollack, R. Haberle, C. Leovy, R. Zurek, H. Lee, and J. Schaeffer (1993) Mars atmospheric dynamics as simulated by the NASA Ames general-circulation model. 2. Transient baroclinic eddies, J. Geophys. Res., 98, 3125– 3148. Cerca con Google

7. Barnes, J. R. (2003) Mars Weather Systems and Maps: FFSM Analyses of MGS TES Temperature Data. The Sixth International Conference on Mars, Pasadena, California, 20 – 25 July, abstract no.3127. Cerca con Google

8. Bell, J. F., and D. Crisp (1993) Ground-based imaging spectroscopy of Mars in the near infrared: preliminary results, Icarus, 104, 2–19. Cerca con Google

9. Bibring, J.-P., Langevin, Y., Poulet, F., Gendrin, A., Gondet, B., Berthe, M., Soufflot, A., Drossart, P., Combes, M., Bellucci, G., Maroz, V., Mangold, N., Schmitt, B. (2004) Perennial water ice identified in the south polar cap of Mars, Nature, 428, 6983–6986. Cerca con Google

10. Bohren, C. F. (1986) Applicability of effective-medium theories to problems of scattering and absorption by nonhomogeneous atmospheric particles, J. Atmos. Sci. 43, 468–475. Cerca con Google

11. Bohren, C. F., and D. Huffman (1983) Absorption and Scattering of Light by Small Particles, New York: Wiley. Cerca con Google

12. Born, M., and E. Wolf (1980) Principles of optics, 6th ed. New York: Pergamon Press. Cerca con Google

13. Bortolino, S., Comolli, L., Formisano, V. (2007) Mechanical disturbances in Fourier spectrometers, Appl. Opt., 46, Issue 22, 5248–5256. Cerca con Google

14. Briggs, G. A. (1974) The nature of the residual Martian polar caps, Icarus, 23, 167–191. Cerca con Google

15. Briggs, G. A., and C. B. Leovy (1974) Mariner 9 observations of the Mars north polar hood, Bull. Am. Meteorol. Soc., 55, 278–296. Cerca con Google

16. Briggs, G., K. Klaasen, T. Thorpe, and J. Wellman (1977) Martian dynamical phenomenon during June-November 1976: Viking orbiter imaging results, J. Geophys. Res., 82, 4121–4149. Cerca con Google

17. Butler, B., D. Muhleman, and M. Slade (1995), The difference in the residual ice caps on Mars as deduced from VLA/Goldstone radar images, Abstract for the “Solar System Ice” international symposium, Toulouse, France. Cerca con Google

18. Calvin, W. M. (1990) Additions and corrections to the absorption coefficient of CO2 ice: applications to the Martian south polar cap, J. Geophys. Res., 95, 14743–14750. Cerca con Google

19. Calvin, W. M., and T. Z. Martin (1994) Spatial variability in the seasonal south polar cap of Mars, J. Geophys. Res., 99, 21143–21152. Cerca con Google

20. Cantor, B.A., James, P.B., Caplinger, M., Wolff, M.J. (2001) Martian dust storms: 1999 Mars Orbiter Camera observations, J. Geophys. Res., 106, 23,653–23,687. Cerca con Google

21. Chandrasekhar, S. (1960), Radiative Transfer, Dover Publications. Cerca con Google

22. Chassefiere, E., J. E. Blamont, V. A. Krasnopolsky, O. I. Korablev, S. K. Atreya, and R. A. West (1992) Vertical structure and size distributions of Martian aerosols from solar occultation measurements, Icarus, 97, 46–69. Cerca con Google

23. Choudhury, B. and Chang, A. (1981) On the angular variation of solar reflectance of snow, J. Geophys. Res., 86, 465–472. Cerca con Google

24. Christensen, P. R., and R. W. Zurek (1984) Martian north polar hazes and surface ice: Results from the Viking survey/completion mission, J. Geophys. Res., 89, 4587–4596. Cerca con Google

25. Christensen, P.R., D.L. Anderson, S.C. Chase, R.T. Clancy, R.N. Clark, H.H. Kieffer, R.O.Kuzmin, M.C. Malin, J.C. Pearl, T.L. Roush, and M.D. Smith (1998) Results from the MarsGlobal Surveyor thermal emission spectrometer, Science, 279, 1692–1698. Cerca con Google

26. Chylek, P., Ramaswami, V., Srivastava, V. (1983) Albedo of soot-contaminated snow, J. Geophys. Res, 88, 10837–10843. Cerca con Google

27. Clancy, R. T., and S. W. Lee (1991) A new look at dust and clouds in the Mars atmosphere: Analysis of emission-phase-function sequences from global Viking IRTM observations, Icarus, 93, 135–158. Cerca con Google

28. Clancy, R. T., S. W. Lee, G. R. Gladstone, W. W. McMillan, and T. Rousch (1995) A new model for Mars atmospheric dust based upon analysis of ultraviolet through infrared observations from Mariner 9, Viking, and Phobos, J. Geophys. Res., 100, 5251–5264. Cerca con Google

29. Clancy, R. T., A. W. Grossman, M. J. Wolff, P. B. James, D. J. Rudy, Y. N. Billawala, B. J. Sandor, S. W. Lee, and D. O. Muhleman (1996) Water vapor saturation at low altitudes around aphelion: A key to Mars climate?, Icarus, 122, 36– 62. Cerca con Google

30. Clancy, R. T., M. J. Wolff, and P. R. Christensen (2003) Mars aerosol studies with the MGS TES emission phase function observations: Optical depths, particle sizes, and ice cloud types versus latitude and solar longitude, J. Geophys. Res., 108(E9), 5097–5120. Cerca con Google

31. Clark, R. N., and T. B. McCord (1982) Mars residual polar cap : Earth-based spectroscopic confirmation of water ice as a major constituent and evidence for hydrated minerals, J. Geophys. Res., 87, 367–370. Cerca con Google

32. Colaprete, A., and O. B. Toon (2002) Carbon dioxide snow storms during the polar night on Mars, J. Geophys. Res., 107, 5051. Cerca con Google

33. Colaprete, A., Barnes, J. R., Haberle, R. M., Hollingsworth, J. L., Kieffer, H. H., Titus, T. N. (2005) Albedo of the south pole of Mars determined by topographic forcing of atmosphere dynamics, Nature, 435, 184–188. Cerca con Google

34. Colbeck, S. C. (1982) An overview of seasonal snow metamorphism, Rev. Geophys. Space Phys., 20, 45–61. Cerca con Google

35. Colburn, D. S., J. B. Pollack, and R. M. Haberle (1989) Diurnal variations in optical depth at Mars, Icarus, 79, 159–189. Cerca con Google

36. Comolli, L., and Saggin, B. (2005) Evaluation of the sensitivity to mechanical vibrations of an IR Fourier spectrometer, Rev. Sci. Instr., 76, 123112–123120. Cerca con Google

37. Conrath, B. J., J. C. Pearl, M. D. Smith, W. C. Maguire, P. R. Christensen, S. Dason, and M. S. Kaelberer (2000) Mars Global Surveyor Thermal Emission Spectrometer (TES) observations: Atmospheric temperatures during aerobraking and science phasing. J. Geophys. Res., 105, 9509–9519. Cerca con Google

38. Curran, R. J., B. J. Conrath, R. A. Hanel, V. G. Kunde, and J. C. Pearl (1973) Mars: Mariner 9 spectroscopic evidence for H2O ice clouds, Science, 182, 381–383. Cerca con Google

39. Davies, D. W. (1979) Effect of dust on the heating of mars's surface and atmosphere, J. Geophys. Res., 84, 8289–8293. Cerca con Google

40. Davies, D. W., C. B. Farmer, and D. D. LaPorte (1979) Behavior of volatile in Mars’ polar areas : a model incorporating new experimental data., J. Geophys. Res., 82, 3815–3822. Cerca con Google

41. Deirmidjian, D. (1964) Scattering and polarization properties of water clouds and hazes in the visible and infrared, Appl. Opt., 3, 187– 202,. Cerca con Google

42. Ditteon, R., and H. H. Kieffer (1979) Optical properties of solid CO2 : Application to Mars, J. Geophys. Res., 84, 8294–8300. Cerca con Google

43. Dollfus, A. (1965) Etude de la plan`ete Mars de 1954 à 1958, Ann. Astrophys, 28, 722–747. Cerca con Google

44. Dozier, J. (1989a), Spectral signature of alpine snow cover from the Landsat Thematic Mapper, Remote Sens. Envir., 28, 9–22. Cerca con Google

45. Dozier, J. (1989b), Remote sensing of snow in visible and near-infrared wavelengths, in Theory and Applications of optical Remote Sensing, G. Asrar, ed., Wiley, pp. 527–547. Cerca con Google

46. Douté, S., B. Schmitt, Langevin, Y., Bibring, J-P., Altieri, F., Bellucci, G., Gondet, B. Poulet, F., and the MEX OMEGA Team (2007) South Pole of Mars: Nature and composition of the icy terrains from Mars Express OMEGA observations, Planet. Space Sci., 55, 113–133. Cerca con Google

47. Eluszkiewicz, J. (1993) On the microphysical state of the Martian seasonal caps, Icarus, 103, 43–48. Cerca con Google

48. Eluszkiewicz, J., and T. N. Titus (2002) Application of a Sintering Model to the Analysis of TES Spectra of the Seasonal Caps, Bull. American Astron. Soc., 34, 866. Cerca con Google

49. Fanale, F., Postawko, S., Pollack, J., Carr, M. and Pepin, R. (1992) Mars: Epochal climate change and volatile history, Chapter 32, in Mars (H. H. Kieffer et al., eds.), Univ. Arizona Press, Tucson, 1135–1179. Cerca con Google

50. Feldman, W.C., Prettyman, T.H., Boynton, W.V., Murphy, J.R., Squyres, S., Karunatillake, S., Maurice, S., Tokar, R.L., McKinney, G.W., Hamara, D.K., Kelly, N., Kerry, K. (2003) CO2 frost cap thickness on Mars during northern winter and spring, J. Geophys. Res., 108 (5103), 7.1–7.8. Cerca con Google

51. Forget, F., J. B. Pollack, and G. B. Hansen (1995) Low brightness temperatures of Martian polar caps: CO2 clouds or low spectral emissivity?, J. Geophys. Res., 100, 21119–21234. Cerca con Google

52. Forget, F., and J. Pollack (1996) Thermal infrared observations of the condensing Martian polar caps: CO2 ice temperatures and radiative budget., J. Geophys. Res., 101, 16865–16880. Cerca con Google

53. Forget, F. (1998a) Mars CO2 ice polar caps, Review chapter from Solar System Ices, 477–507. Cerca con Google

54. Forget, F., F. Hourdin, O. Talagrand (1998b) CO2 Snowfall on Mars: Simulation with a General Circulation Model, Icarus, 131, 302–316. Cerca con Google

55. Forget, F., E. Millour, S. Lebonnois, L. Montabone, K. Dassas S. R. Lewis, P. L. Read, M. Lopez-Valverde, F. Gon-zalez Galindo F. Montmessin, F. Lefevre M.C. Desjean and J. P. Huot (2006) The New Mars Climate Database, in 2nd workshop on Mars atmosphere modelling and observations abstract book, Granada, Spain. Cerca con Google

56. Forman M.L., Steel W.H., Vanasse G.A. (1966) Correction of asymmetric interferograms obtained in Fourier spectroscopy; J. of the Optical Soc. Of America., 56, 59–63. Cerca con Google

57. Formisano, V., et al. (1997) PFS: A Fourier Spectrometer for the Study of Martian atmosphere. Adv. Space Res., 19, 1277–1280. Cerca con Google

58. Formisano, V., Fonti, S., Grassi, D., Orfei, R., Piccioni, G., Saggin, B., Hirsh, H., Orleanski, P., Rataj, M., Biondi, D., Mencarelli, E., Mattana, A., Nespoli, F., Malgoska, M., Patsaev, D., Moroz, V., Zasova, L., Ignatiev, N., Khatuntsev, I., Moshkin, B., Ekonomov, A., Maturilli, A., Giuranna, M., Rossi, M., Maggi, M., Di Lellis, A., Baldetti, P., Chionchio, G., Cerroni, P., Capaccioni, F., Gobbi, P., Capria, M.T., Angrilli, F., Bianchini, G., Colangeli, L., Palomba, E., Esposito, F., Orofino, V., Blanco, A., Cordini, A., Grigoriev, A., Nechaev, V., Kiselev, A., Nikolsky, Y., Gnedykh, V., Titov, D., Jurewicz, A., Blecka, M.I., Arnold, G., Lellouch, E., Marten, A., Encrenaz, T., Lopez, J., Moreno, S., Atreya, (2004) The Planetary Fourier Spectrometer (PFS) for Mars Express. In “The Mars Express mission of ESA”. ESA SP. Cerca con Google

59. Formisano, V.; Angrilli, F.; Arnold, G.; Atreya, S.; Bianchini, G.; Biondi, D.; Blanco, A.; Blecka, M. I.; Coradini, A.; Colangeli, L.; Ekonomov, A.; Esposito, F.; Fonti, S.; Giuranna, M.; Grassi, D.; Gnedykh, V.; Grigoriev, A.; Hansen, G.; Hirsh, H.; Khatuntsev, I.; Kiselev, A.; Ignatiev, N.; Jurewicz, A.; Lellouch, E.; Lopez Moreno, J.; Marten, A.; Mattana, A.; Maturilli, A.; Mencarelli, E.; Michalska, M.; Moroz, V.; Moshkin, B.; Nespoli, F.; Nikolsky, Y.; Orfei, R.; Orleanski, P.; Orofino, V.; Palomba, E.; Patsaev, D.; Piccioni, G.; Rataj, M.; Rodrigo, R.; Rodriguez, J.; Rossi, M.; Saggin, B.; Titov, D.; Zasova, L. (2005) The Planetary Fourier Spectrometer (PFS) onboard the European Mars Express mission, Planetary and Space Science, 53, issue 10, 963–974. Cerca con Google

60. Formisano, V., Maturilli, A., Giuranna, M., D’Aversa, E., Lopez-Valverde, M. A. (2006) Observations of non-LTE emission at 4.5 microns with the planetary Fourier spectrometer abord the Mars Express mission, Icarus, 182, 51–67. Cerca con Google

61. French, R. G., P. J. Gierasch, B. D. Popp, and R. J. Yerdon (1981) Global patterns in cloud forms on Mars, Icarus, 45, 468– 493. Cerca con Google

62. Fung, A. K., Microwave Scattering and Emission Models and Their Applications, Artech House. Cerca con Google

63. Gierasch, P. J., and R. M. Goody (1968) A study of the thermal and dynamical structure of the Martian lower atmosphere, Planet. Space Sci., 16, 615–646. Cerca con Google

64. Giuranna, M., Formisano, V., Biondi, D., Ekonomov, A., Fonti, S., Grassi, D., Hirsch, H., Khatuntsev, I., Ignatiev, N., Michalska, M., Mattana, A., Maturilli, A., Moshkin, B. E., Mencarelli, E., Nespoli, F., Orfei, R., Orleanski, P., Piccioni, G., Rataj, M., Saggin, B., Zasova, L. (2005a) Calibration of the Planetary Fourier Spectrometer Short Wavelength Channel, Planet. Space Sci, 53, issue 10, 975–991. Cerca con Google

65. Giuranna, M., Formisano, V., Biondi, D., Ekonomov, A., Fonti, S., Grassi, D., Hirsch, H., Khatuntsev, I., Ignatiev, N., Malgoska, M., Mattana, A., Maturilli, A., Mencarelli, E., Nespoli, F., Orfei, R., Orleanski, P., Piccioni, G., Rataj, M., Saggin, B., Zasova L. (2005b) Calibration of the Planetary Fourier Spectrometer Long Wavelength Channel, Planet. Space Sci., 53, issue 10, 993–1007. Cerca con Google

66. Giuranna, M., V. Formisano, D. Grassi and A. Maturilli (2007a) Tracking the edge of the south seasonal polar cap of Mars, Planet. Space Sci., 55, issue 10, 1319–1327. Cerca con Google

67. Giuranna, M., Hansen, G., Maturilli, A., Zasova, L., Formisano, V., Grassi, D., Ignatiev, N. (2007b) Spatial variability, composition and thickness of the seasonal north polar cap of Mars in mid-spring, Planet. Space Sci., 55, issue 10, 1328–1345. Cerca con Google

68. Glenar, D., R. E. Samuelson, J. C. Pearl, G. L. Bjoraker, and D. Blaney (2003) Spectral imaging of Martian water ice clouds and their diurnal behavior during the 1999 aphelion season (LS = 130°), Icarus, 161, 297–318. Cerca con Google

69. Gosse, S., Labrie, D., and Chylek, P. (1995) Refractive index of ice in the 1.4- to 7.8-?m spectral range, Appl. Opt., 34, 6582–6586. Cerca con Google

70. Grassi, D., Ignatiev, N.I., Zasova, L.V., Maturilli, A., Formisano, V., Bianchini, G.A., Giuranna, M. (2005) Methods for the analysis of data from the Planetary Fourier Spectrometer on the Mars Express Mission, Planet. Space Sci., 53 (10), 1017–1034. Cerca con Google

71. Grundy, W. M., and B. Schmitt (1998) The temperature-dependent near-infrared absorption spectrum of hexagonal H2O ice, J. Geophys. Res., 103, 25809–25822. Cerca con Google

72. Haberle, R. M. (1995) Buried dry ice on mars, Nature, 374, 595–596. Cerca con Google

73. Hanel, R. A., Conrath, B., Hovis, W., Kunde, V., Lowman, P., Maguire, W., Pearl, J., Pirraglia, J., Prabhakara, C., Schlachman, B., Levin, G., Straat, P., Burke, T. (1972) Investigation of the Martian environment by infrared spectroscopy on Mariner 9, Icarus, 17, 423–442. Cerca con Google

74. Hanel, R. A., et al. (1992) Exploration of the Solar System by infrared remote sensing, Cambridge University Press. Cerca con Google

75. Hansen, G. B. (1993) The spectral absorption of CO2 ice in the thermal infrared, Bull. Am. Astron. Soc., 25, (3), 1034. Cerca con Google

76. Hansen, G.B. (1997a) The infrared absorption spectrum of carbon dioxide ice from 1.8 to 333 ?m, J. Geophys. Res., 102, 21569–21587. Cerca con Google

77. Hansen, G.B. (1997b) Spectral absorption of solid CO2 from the ultraviolet to the far-infrared, Adv. In Sp. Res., 20, issue 8, 1613–1616. Cerca con Google

78. Hansen, G.B., McCord, T. B., and Galileo NIMS Team (1997c) Optical Properties of Water Ice Below 200 K, 28th Annual Lunar and Planetary Science Conference, March 17-21, 1997, Houston, TX, p. 505. Cerca con Google

79. Hansen, G.B. (1999) Control of the radiative properties of the Martian polar caps by surface CO2 ice: Evidence from Mars Global Surveyor measurements. J. Geophys. Res., 104, 16471–16486. Cerca con Google

80. Hansen, G. B. (2001) Eos Trans. AGU, 82, Fall Meet. Suppl., Abstract P12E-09. Cerca con Google

81. Hansen, G. B. (2003a) Evolution of low-emissivity spots in the Martian winter polar caps: mobility of dust grains, Third Mars Polar Science Conference, October 13-17, Alberta, Canada. Cerca con Google

82. Hansen, G. B. (2003b) Infrared Optical Constants of Martian Dust Derived from Martian Spectra, Sixth International Conference on Mars, July 20-25 2003, Pasadena, California, abstract no.3194. Cerca con Google

83. Hansen, G.B. (2005) Ultraviolet to near-infrared absorption spectrum of carbon dioxide ice from 0.174 to 1.8 ?m, J. Geophys. Res., 110, E11003.1–E11003.18. Cerca con Google

84. Hansen, G. B., Giuranna, M., Formisano, V., Fonti, S., Grassi, D., Hirsh, H., Ignatiev, N., Maturilli, A., Orleanski, P., Piccioni, G., Rataj, M., Saggin, B., Zasova, L. (2005) PFS-MEX observation of ices in the residual south polar cap of Mars, Planet. Space Sci., 53, issue 10, 1089–1095. Cerca con Google

85. Hansen, J. E., and L. D. Travis (1974) Light scattering in planetary atmospheres, Space Sci. Rev., 16, 527–610. Cerca con Google

86. Hapke, B. W. (1993) Theory of Reflectance and Emittance Spectroscopy, Cambridge University Press, New York. Cerca con Google

87. Hapke, B. W. (2002) Bidirectional reflectance spectroscopy. 5. Coherent backscatter opposition effect and anisotropic scattering, Icarus, 157, 523–534. Cerca con Google

88. Hart, H. M., and B. M. Jakosky (1986) Composition and stability of the condensate observed at the Viking lander 2 site on Mars, Icarus, 66, 134–142. Cerca con Google

89. Helfenstein, P., J. Veverka, and J. Hillier (1997) The lunar opposition effect: A test of alternative models, Icarus, 128, 2–14. Cerca con Google

90. Herr, K. C., and G. C. Pimentel (1969) Infrared absorptions near three microns recorded over the polar caps of Mars, Science, 166, 496–499. Cerca con Google

91. Herr, K. C., and G. C. Pimentel (1970) Evidence for solid carbon dioxide in the upper atmosphere of Mars, Science, 166, 496–499. Cerca con Google

92. Herschel, W. (1784) On the remarkable appearance of the polar regions of the planet Mars, the inclination of its axis, the position of its poles, and its spheroidical figure; With a few hints relative to its diameter, Philos. Trans., 24, 233–273. Cerca con Google

93. Hess, S. L. (1979) Static stability and thermal wind in an atmosphere of variable composition: Application to Mars, J. Geophys. Res., 84, 2969–2973. Cerca con Google

94. Hess, S. L., Ryan, J. A., Tillman, J. E., Henry, R. M., Leovy, C. B. (1980) The annual cycle of pressure on Mars measured by Viking landers 1 and 2, Geoph. Res. Lett., 7, 197–200. Cerca con Google

95. Hinson, D. P. and R.J. Wilson (2002) Transient waves in the southern hemisphere of Mars, Geophys. Res. Lett., 29(7), doi: 10.1029/2001GL014103. Cerca con Google

96. Hinson, D. P., R. J. Wilson, M. D. Smith, and B. J. Conrath (2003) Stationary planetary waves in the atmosphere of Mars during southern winter, J. Geophys. Res., 108, E1, 5004. Cerca con Google

97. Hollingsworth, J. L., and J. R. Barnes (1995) Forced Stationary Planetary Waves in Mars’s Winter Atmosphere, J. Atmos. Sci., 53, 428–448. Cerca con Google

98. Holton, J. R. (1979) An introduction to dynamic Meteorology, Academic, San Diego, Calif. Cerca con Google

99. Hourdin, F., P. Le Van, F. Forget, and O. Talagrand (1993) Meteorological variability and the annual surface pressure cycle on Mars, J. Atmos. Sci., 50, 3625–3640. Cerca con Google

100. Hourdin, F., F. Forget, and O. Talagrand (1995) The sensitivity of the Martian surface pressure to various parameters: a comparison between numerical simulations and Viking observations, J. Geophys. Res., 100, 5501–5523. Cerca con Google

101. Hunt, G. E. (1980) On the infrared radiative properties of CO2 ice clouds: Applications to Mars., Geophys. Res. Lett., 7, 481–484. Cerca con Google

102. Hu, Y. X., B. Wielicki, B. Lin, G. Gibson, S.C. Tsay, K. Stamnes, and T. Wong (2000) ?-fit: a fast and accurate treatment of particle scattering phase functions with weighted singular-value decomposition least-squares fitting, J. Quant. Spectrosc. Radiat. Transfer, 65, 681–690. Cerca con Google

103. Ignatiev, N.I., Grassi, D., Zasova, L.V. (2005) Planetary Fourier spectrometer data analysis: fast radiative transfer models, Planet. Space Sci, 53 (10), 1035–1042. Cerca con Google

104. Iwisaki, K., Y. Saito, and T. Akabane (1982) Martian north polar cap: 1979-1980, J. Geophys. Res., 87, 10265–10269. Cerca con Google

105. Jakosky, B. M. (1983) Comments on “Mars residual north polar cap : Earth-based spectroscopic confirmation of water ice as a major constituent and evidence for hydrated minerals” by R. N. Clark and T. B. McCord., J. Geophys. Res., 88, 4329–4330. Cerca con Google

106. Jakosky, B. M., and E. S. Barker (1984) Comparison of ground-based and Viking Orbiter measurements of Martian water vapor: variability of the seasonal cycle., Icarus, 57, 322–334. Cerca con Google

107. Jakosky, B. M., and T. Z. Martin (1987) Mars: North-polar atmospheric warming during dust storms, Icarus, 72, 528–534. Cerca con Google

108. Jakosky, B. M., and R. M. Haberle (1990) Year-to-year instability of the Mars south polar cap., J. Geophys. Res., 95, 1359–1365. Cerca con Google

109. Jakosky, B. M., B. G. Henderson, and M. T. Mellon (1993) The Mars water cycle at other epochs: recent history of the polar caps and layered terrain., Icarus, 102, 286–297. Cerca con Google

110. James, P. B., G. Briggs, J. Barnes, and A. Spruck (1979) Seasonal recession of Mars’ south polar cap as seen by Viking, J. Geophys. Res., 84, (B6), 2889–2922. Cerca con Google

111. James, P. B., and G. R. North (1982) The seasonal CO2 cycle on Mars: An application of an energy balance climate model, J. Geophys. Res., 87, 10271–10283. Cerca con Google

112. James, P. B. (1983) Condensation phase of the Martian south polar cap, Bull. Am. Astron. Soc., 15, 846–847. Cerca con Google

113. James, P. B., M. Pierce, and L. J. Martin (1987) Martian north polar cap and circumpolar clouds: 1975-1980 Telescopic observation., Icarus, 71, 306–312. Cerca con Google

114. James, P. B., H. H. Kieffer, and D. A. Paige (1992) The seasonal cycle of carbon dioxide on Mars, in Mars, pp. 934–968, University of Arizona Press, Tucson. Cerca con Google

115. James, P. B., R. T. Clancy, S. W. Lee, L. J. Martin, R. B. Singer, S. E., R. A. Kahn, and R. W. Zurek (1994) Monitoring Mars with the Hubble space telescope : 1990-1991 observations., Icarus, 109, 79–101. Cerca con Google

116. James, P. B., and Cantor, B.A. (2001) Martian north polar cap regression: 2000. Mars Orbiter Camera observations, Icarus, 154, 131–144. Cerca con Google

117. Jin, Z. and Simpson, J. (1999) Bidirectional anisotropic reflectance of snow and sea ice in AVHRR channel 1 and 2 spectral regions. Part I: Theoretical analysis, IEEE Trans. Geosci. Remote Sens., 37, 543–554. Cerca con Google

118. Johnson, B. R., S. K. Atreya (1996) Feasibility of Determining the Composition of Planetary Ices by Far Infrared Observations: Application to Martian Cloud and Surface Ices, Icarus, 119, 405–426. Cerca con Google

119. Jones, K., R. E. Arvidson, E. A. Guiness, S. L. Braggs, S. D. Wall, C. E. Carlston, and D. G. Pidek (1979) One Mars year : Viking lander imaging observations, Science, 204, 799–806. Cerca con Google

120. Kaufman, Y. J., and Joseph, J. H. (1982) Determination of surface albedoes and aerosol extinction characteristics from satellite imagery, J. Geophys. Res., 20, 1287–1299. Cerca con Google

121. Kerker, M. (1969) The scattering of light, New York: Academic Press. Cerca con Google

122. Kieffer, H. H. (1970a), Interpretation of the Martian polar cap spectra, J. Geophys. Res., 75, 510–514. Cerca con Google

123. Kieffer, H. H. (1970b), Spectral reflectance of CO2-H2O frosts, J. Geophys. Res., 75, 501–509. Cerca con Google

124. Kieffer, H. H., S. C. Chase, E. D. Miner, F. D. Palluconi, G. M¨unch, G. Neugebauer, and T. Z. Martin (1976) Infrared thermal mapping of the martian surface and atmosphere: First results, Science, 193, 780–786. Cerca con Google

125. Kieffer, H.H., Chase Jr., S.C., Martin, T.Z., Miner, E.D., Palluconi, F.D. (1976b) Martian north pole summer temperatures: Dirty water ice, Science, 194, 1341–1344. Cerca con Google

126. Kieffer, H. H., T. Z. Martin, R. Peterfreund, B. M. Jakosky, E. D. Miner, and F. D. Palluconi (1977) Thermal and albedo mapping during the Viking primary mission, J. Geophys. Res., 82, 4249–4291. Cerca con Google

127. Kieffer, HH (1979), Mars South Polar spring and summer temperatures: A residual C02 frost, J.Geophys. Res., 84, 8263–8288. Cerca con Google

128. Kieffer, H. H. (1990) H2O grain size and the amount of dust in Mars’s residualnorth polar cap, J. Geophys. Res., 95, 1481–1493. Cerca con Google

129. Kieffer, H. H., and A. P. Zent (1992) Quasi-periodic climate change on Mars, in Mars, edited by S. Kieffer, Jakosky and Matthews, pp. 1180–1218, University of Arizona Press, Tucson. Cerca con Google

130. Kieffer, H. H., Titus, T. N., and Mullins, K.F. (2000) Mars south polar spring and summer behavior observed by TES: Seasonal cap evolution controlled by frost grain size, J. Geophys. Res., 105, 9653–9699. Cerca con Google

131. Kieffer, H. H., and Titus, T. N. (2001) TES Mapping of Mars’ North Seasonal Cap, Icarus, 154, 162–180. Cerca con Google

132. King, M. D., and Harshvardhan (1986) Comparative accuracy of selected multiple-scattering approximations, J. Atmos. Sci., 43, 784–801. Cerca con Google

133. Kou, L., Labrie, D., and Chylek, P. (1993) Refractive indices of water and ice in the 0.65–2.5 ?m spectral range, Appl. Opt., 32, 3531–3540. Cerca con Google

134. Langevin, Y., Poulet, F., Bibring, J.-P., Schmitt, B., Douté , S., Gondet, B. (2005a) Summer evolution of the north polar cap of Mars as observed by OMEGA/Mars Express, Science, 307, 1581–1584. Cerca con Google

135. Langevin, Y., Douté , S., Vincendon, M., Poulet, F., Bibring, J-P., Gondet, B., Schmitt, B., Forget, F. (2006) No signature of clear CO2 ice from the ‘cryptic’ regions in Mars’ south seasonal polar cap, Nature, 442, 790–792. Cerca con Google

136. Larson, H. P., and U. Fink (1972) Identification of carbon dioxide frost on the Martian polar caps, Astrophys. Jour., 171, L91–L95. Cerca con Google

137. Laskar, J., and P. Robutel (1993) The chaotic obliquity of the planets, Nature, 361, 608–612. Cerca con Google

138. Leighton, R. R., and B. C. Murray (1966) Behavior of carbon dioxide and other volatiles on Mars, Science, 153, 136–144. Cerca con Google

139. Lenoble, J. (1985) Radiative transfer in scattering and absorbing atmospheres: standard computational procedures, A. Deepak Publishing. Cerca con Google

140. Leovy, C. (1969) Theoretical aspects of meteorology, Appl. Opt., Vol. 8, No. 7 , 1279–1286. Cerca con Google

141. Leovy, C. (2001) Weather and climate on Mars, Nature, 412, 245–249. Cerca con Google

142. Liang, S., and Strahler, A. H. (1994a) Retrieval of surface BRDF from multiangle remotely sensed data, Remote Sens. Envir., 50, 18–30. Cerca con Google

143. Liang, S., and Strahler, A. H. (1994b) A four-stream solution for atmospheric radiative transfer over a non-Lambertian surface, Appl. Opt., 33, 5745–5753. Cerca con Google

144. Liang, S. and Townshend, J. R. G. (1996a), A parametric soil BRDF model: A four-stream approximation, Int. J. Remote Sens., 17, 1303–1315. Cerca con Google

145. Liang, S. and Townshend, J. R. G. (1996b), A modified Hapke model for soil bidirectional reflectance, Remote Sens. Envir., 55, 1–10. Cerca con Google

146. Lindner, B. L. (1990) The Martian polar cap : radiative effects of ozone, clouds and airborne dust, J. Geophys. Res., 95, 1367–1379. Cerca con Google

147. Liou, K. N. (1974) Analytic two-stream and four stream solutions for radiative transfer, J. Atmos. Sci., 31, 1473–1475. Cerca con Google

148. Liou, K. N. (1980) An introduction to atmospheric radiation, Academic Press. Cerca con Google

149. Lumme, K. (1976) On the surface brightness and geometric albedo of some Martian areas., Icarus, 29, 69. Cerca con Google

150. Lumme, K., and P. B. James (1984) Some photometric properties of the Martian south polar cap region during the 1971 apparition, Icarus, 58, 363–376. Cerca con Google

151. Martin, T. Z., and H. H. Kieffer (1979) Thermal infrared properties of the Martian atmosphere, 2, the 15?m band measurements, J. Geophys. Res., 84, 2843–2852. Cerca con Google

152. Martin, T. Z. (1981) Mean thermal and albedo behavior of the Mars surface and atmosphere over a Martian year, Icarus, 45, 427–446. Cerca con Google

153. Meador, W. E., and Weaver, W. R. (1980) Two-stream approximations to radiative transfer in planetary atmospheres: A unified description of existing methods and a new improvement, J. Atmos. Sci., 37, 630–643. Cerca con Google

154. Mishchenko, M. I. (1991) Light scattering by randomly oriented axially symmetric particles, J. Opt. Soc. Am., A8, 871–882. Cerca con Google

155. Mishchenko, M.I. (1992) The angular width of the coherent backscatter opposition effect—an application to icy outer planet satellites, Astrophys. Space Sci, 194, 327–333. Cerca con Google

156. Mishchenko, M. I. (1993) Light scattering by size-shape distributions of randomly oriented axially symmetric particles of a size comparable to a wavelength, Appl. Opt., 32, 4652–4666. Cerca con Google

157. Mishchenko, M. I. (1994) Asymmetry parameters of the phase function for densely packed scattering grains, J. Quant. Spectrosc. Radiat. Trans., 52, 95–110. Cerca con Google

158. Mishchenko, M.I. (1996) Diffuse and coherent backscattering by discrete random media. 1. Radar reflectivity, polarization ratios, and enhancement factors for a half-space of polydisperse nonabsorbing, and absorbing spherical particles, J. Quant. Spectrosc. Radiat. Transfer, 56, 673–702. Cerca con Google

159. Mishchenko, M. I. and Macke, A. (1997) Asymmetry parameters of the phase function for isolated and densely packed spherical particles with multiple internal inclusions in the geometric optics limit, J. Quant. Spectrosc. Radiat. Trans., 57, 767–794. Cerca con Google

160. Mishchenko, M. I., Dlugach, J. M., Yanovitskijb, E. G., and Zakharovac, N. T. (1999) Bidirectional reflectance of flat, optically thick particulate layers: An efficient radiative transfer solution and applications to snow and soil surfaces, J. Quant. Spectrosc. Radiat. Trans., 63, 409–432. Cerca con Google

161. Montmessin, F., P. Rannou, and M. Cabane (2002) New insights into Martian dust distribution and water-ice cloud microphysics, J. Geophys. Res., 107(E6), 5037. Cerca con Google

162. Montmessin, F., Bertaux, J. L., Quemerais, E., Korablev, O., Rannou, P. , Forget, F., Perrier, S., Fussen, D. , Lebonnois, S, Reberac, A., Dimarellis, E. (2006) Subvisible CO2 ice clouds detected in the mesosphere of Mars, Icarus, 183, 403. Cerca con Google

163. Montmessin, F., B. Gondet , J.P. Bibring, T. Fouchet, F. Forget, P. Drossart, Y. Langevin, T. Encrenaz (2007) Hyperspectral imaging of CO2 ice clouds on Mars, EGU General assembly 2007, Vienna, Austria, 15 – 20 April. Cerca con Google

164. Murphy, J. R., R. M. Haberle, O. B. Toon, and J. B. Pollack (1993) Martian global dust storms: Zonally symmetric numerical simulations including size-dependent particle transport, J. Geophys. Res., 98, 3197–3220. Cerca con Google

165. Nakajima, T., and M. Tanaka (1988) Algorithms for radiative intensity calculations in moderately thick atmospheres using a truncation approximation, J. Quant. Spectrosc. Radiat. Transfer, 40, 51–69. Cerca con Google

166. Neugebauer, G., G. Münch, H. Kieffer, S.C. Chase Jr. and E. Miner (1971) Mariner 1969 infrared radiometer results: Temperatures and thermal properties of the martian surface, Astron. J., 76, 719–728. Cerca con Google

167. Nussenzveig, H. M., and W. J. Wiscombe (1980) Efficiency factors in Mie scattering, Phys. Rev. Lett., 45, 1490–1494. Cerca con Google

168. Ockert-Bell, M. E., J. F. Bell III, J. B. Pollack, C. P. McKay, and F. Forget (1997) Absorption and scattering properties of the Martian dust in the solar wavelengths, J. Geophys. Res., 102, 9039–9050. Cerca con Google

169. Ockman, N. (1958) The infrared spectra and raman-spectra of ice, Phil. Mag. Suppl., 7, 199–220. Cerca con Google

170. Ono, A., and D. A. Paige (1995) Martian polar frosts, Abstract for the “Solar System Ice” international symposium, Toulouse, France. Cerca con Google

171. Paige, D. A. (1985) The annual heat balance of the Martian polar caps from Viking observations, Ph.D. thesis, Calif. Inst. of Technol., Pasadena Cerca con Google

172. Paige, D. A., and A. P. Ingersoll (1985) Annual heat balance of Martian polar caps: Viking observations, Science, 228, 1160–1168. Cerca con Google

173. Paige, D. A., D. Crisp, and M. L. Santee (1990a), It snows on mars, Bull. Am. Astron. Soc., 22, 1075. Cerca con Google

174. Paige, D. A., K. E. Herkenhoff, and B. C. Murray (1990b), Mariner 9 observations of the south polar cap of Mars : evidence for residual CO2 frost, J. Geophys. Res., 95, 1319–1335. Cerca con Google

175. Paige, D. A., and S. E. Wood (1992) Modeling the Martian seasonal CO2 cycle: 2. interannual variability, Icarus, 99, 15–27. Cerca con Google

176. Parker, D. C., C. F. Capen, and J. D. Beish (1983) Exploring the martian artic., Sky & Telescope, 65, 218–220. Cerca con Google

177. Pearl, J. C., M. D. Smith, B. J. Conrath, J. L. Bandfield, and P. R. Christensen (2001) Observations of Martian ice clouds by the Mars Global Surveyor Thermal Emission Spectrometer: The first year, J. Geophys. Res., 106, 12,325– 12,338. Cerca con Google

178. Petrova, E. H., U. Keller, W. J. Markiewicz, N. Thomas, and M. W. Wuttke (1996) Ice hazes and clouds in the Martian atmosphere as derived from the Phobos/KRFME data, Planet. Space Sci., 44, 1163–1176. Cerca con Google

179. Pettengill, G. H. and Ford, P. G. (2000) Winter Clouds over the North martian Polar Cap. Geoph. Res. Lett., 27, 609–612. Cerca con Google

180. Pimentel, G., P. Forney, and K. Herr (1974) Evidence about hydrate and solid water in the Martian surface from the 1969 Mariner infrared spectrometer, J. Geophys. Res., 79, 1623–1634. Cerca con Google

181. Pollack, J. B., R. M. Haberle, J. Schaeffer, and H. Lee (1990) Simulations of the general circulation of the Martian atmosphere, I, Polar processes, J. Geophys. Res., 95, 1447–1473. Cerca con Google

182. Pollack, J. B., R. M. Haberle, J. R. Murphy, J. Shaeffer, and H. Lee (1993) Simulation of the general circulation of the Martian atmosphere II: seasonnal pressure variations, J. Geophys. Res., 98, (E2), 3149–3181. Cerca con Google

183. Pollack, J. B., M. E. Ockert-Bell, and M. K. Sheppard (1995) Viking lander analysis of Martian atmospheric dust, J. Geophys. Res., 100, 5235–5250. Cerca con Google

184. Potter, J. F. (1970), The Delta Function Approximation in Radiative Transfer Theory, J. Atmos. Sci. 27, 943–949. Cerca con Google

185. Press, W. H., Flannery, B. P., Teukolsky, S. A., and Vetterling, W. T. (1989) Numerical Recipes. The art of scientific computing (Fortran Version), Cambridge Univ. Press. Cerca con Google

186. Prettyman, T. H., Feldman, W. C., Murphy, J. R., Funsten, H. O., Lawrence, D. J., Linn, R. R., Maurice, S., Tokar, R. L. (2003) Seasonal Advance and Retreat of Mars' South Polar Cap as Measured by the Mars Odyssey Neutron Spectrometer, Third InternationalConference on Mars Polar Science and Exploration, October 13 – 17, Alberta, Canada, abstract no.8099. Cerca con Google

187. Rajaram, B., Glandorf, D. L., Curtis, D. B., Tolbert, M. A., Toon, O. B., and Ockman, N. (2001) Temperature-dependent optical constants of water ice in the near infrared: new results and critical review of the available measurements, Appl. Opt., 40, Issue 25, 4449–4462 Cerca con Google

188. Rizk, B., R. M. Haberle, D. Hunten, and J. B. Pollack (1995) Meridional transport and water reservoir in southern Mars during 1988-1989, Icarus, 118, 39–50. Cerca con Google

189. Rodin, A. V., O. I. Korablev, and V. I. Moroz (1997) Vertical distribution of water in the near-equatorial troposphere of Mars: Water vapor and clouds, Icarus, 125, 212–229. Cerca con Google

190. Roush, T., J. Pollack, and J. Orenberg (1991) Derivation of midinfrared (5–25 microns) optical constants of some silicates and palagonite, Icarus, 94, 191–208. Cerca con Google

191. Sadourny, R. and K. Laval (1984) January and July performance of the LMD general circulation model, in “New Perspectives in Climate Modeling”, A.L. Berger and C. Nicolis (Eds.), Elsevier Press, Amsterdam, 173–197. Cerca con Google

192. Saggin, B., Comolli, L., Formisano, V. (2007) Mechanical disturbances in Fourier spectrometers, Appl. Opt., 46, Issue 22, 5248–5256. Cerca con Google

193. Singer, R.B. (1980) The dark materials on Mars, II. New mineralogic interpretations from reflectance spectroscopy and petrologic implications (abstract), in Lunar and planetary science XI, Lunar and Planetary Institute, 1048–1050. Cerca con Google

194. Smith, S. A., and B. A. Smith (1972) Diurnal and seasonal behavior of discrete white clouds on Mars, Icarus, 16, 509–521. Cerca con Google

195. Smith, David E., Maria T. Zuber, Sean C. Solomon, Roger J. Phillips, James W. Head, James B. Garvin, W. Bruce Banerdt, Duane O. Muhleman, Gordon H. Pettengill, Gregory A. Neumann, Frank G. Lemoine, James B. Abshire, Oded Aharonson, C. David, Brown, Steven A. Hauck, Anton B. Ivanov, Patrick J. McGovern, H. Jay Zwally, and Thomas C. Duxbury (1999) The Global Topography of Mars and Implications for Surface Evolution, Science, 284, 1495–1503. Cerca con Google

196. Smith, D. E., Neumann, G., Arvidson, R.E., Guinness, E.A., Slavney, S. (2003) Mars global surveyor laser altimeter mission experiment gridded data record, NASA Planetary Data System, MGS-M-MOLA-5-MEGDR-L3-V1.0. Cerca con Google

197. Snook, K. J. (1999) Optical properties and radiative heating effects of dust suspended in the Mars atmosphere, Ph.D thesis, Stanford Univ., Stanford, Calif.. Cerca con Google

198. Snook, K. J., J. L. Bandfield, F. Forget, and C. P. McKay (2000) Derivation of Infrared Optical Properties of Dust Suspended in the Martian Atmosphere from MGS-TES Data., Bull. Am. Astron. Soc., 32, 1094. Cerca con Google

199. Soderblom, L.A., Wenner, D.B. (1978) Possible fossil water liquid-ice interfaces in the Martian crust, Icarus, 34, 622–637. Cerca con Google

200. Stamnes, K., Tsay, S. C., Wiscombe, W., and Jataweera, K. (1988) Numerically stable algorithm for discrete-ordinate-method radiative transfer in multiple scattering and emitting layered media, Appl. Opt., 27, 2502–2509. Cerca con Google

201. Stratton, J. (1941) Electromagnetic Theory, New York: McGraw-Hill Cerca con Google

202. Svitek, T., and B. Murray (1990) Winter frost at Viking Lander 2 site, J. Geophys. Res., 95, 1495–1510. Cerca con Google

203. Takano, Y. and Liou, K. N. (1989a) Solar radiative transfer in cirrus clouds. Part I: Single-scattering and optical properties of hexagonal ice crystals, J. Atmos. Sci., 46, 3–19. Cerca con Google

204. Takano, Y. and Liou, K. N. (1989b), Solar radiative transfer in cirrus clouds. Part II: Theory and computation of multiple scattering in an anisotropic medium, J. Atmos. Sci., 46, 20–36. Cerca con Google

205. Takano, Y., K. N. Liou, and P. Minnis (1992) The effects of small ice crystals on cirrus infrared radiative properties. J. Atmos. Sci., 49, 1487–1493. Cerca con Google

206. Takano, Y. and Liou, K. N. (1995), Solar radiative transfer in cirrus clouds. Part III: Light scattering by irregular ice crystals, J. Atmos. Sci., 52, 818–837. Cerca con Google

207. Talagrand, O., F. Hourdin, and F. Forget (1991) The LMD Martian general circulation model: Results about the annual pressure cycle, Bull. Am. Astron. Soc., 23, 1217 (oral presentation at the 23rd annual DPS meeting (Palo Alto, California). Cerca con Google

208. Tamppari, L. K., R. W. Zurek, and D. A. Paige (2000) Viking era water ice clouds, J. Geophys. Res., 105, 4087– 4107. Cerca con Google

209. Thomas, G. E., and Stamnes, K. (1999) Radiative Transfer in the Atmosphere and ocean, Cambridge Atmospheric and Space Sciences Series, Cambridge Univ. Press. Cerca con Google

210. Thomas, P., Veverka, J., Campos-Marquetti, R. (1979) Frost Streaks in the South Polar Cap of Mars, J. Geophys. Res., 84, 4621–4633. Cerca con Google

211. Tillman, J. E. (1988) Mars global atmospheric oscillations: Annually synchronized transient normal-mode oscillations and the triggering of global dust storms, J. Geophys. Res., 93, 9433–9451. Cerca con Google

212. Titov, D. V., V. I. Moroz, and Y. M. Getkin (1997) Aerosol component of the Martian atmosphere and its variability from the results of infrared radiometry in the Termoscan/Phobos-2 Experiment, Planet. Space Sci., 45, 637– 651. Cerca con Google

213. Titus, T.N. and Kieffer, H. (2001) Slab ice and snow flurries in the Martian polar night, J. Geophys. Res., 106 (23), 181. Cerca con Google

214. Titus, T. N., H. H. Kieffer, K. F. Mullins, and P. R. Christensen (2001) TES premapping data: Slab ice and snow flurries in the martian north polar night, J. Geophys. Res., 106, 23,181–23,196. Cerca con Google

215. Titus, T.N. (2005) Mars polar cap edges tracked over 3 full mars years, 36th Annual Lunar and Planetary Science Conference, League City, Texas, abstract no.1993, March 14–18. Cerca con Google

216. Tomasko, M. G., L. R. Doose, M. Lemmon, E. Wegryn, and P. H. Smith (1999) Properties of dust in the Martian atmosphere from the imager on Mars Pathfinder, J. Geophys. Res., 104, 8987– 9008. Cerca con Google

217. Toon, O. B., J. B. Pollack, and C. Sagan (1977) Physical properties of the particles composing the Martian dust storm of 1971, Icarus, 30, 663– 696. Cerca con Google

218. Toon, O. B., Tolbert, M. A., Koehler, B. G., Middlebrook, A. M., and Jordan, J. , (1994) Infrared optical constants of water ice, amorphous nitric acid solutions, and nitric acid hydrates, J. Geophys. Res., 99, 25631–25654. Cerca con Google

219. Van de Hulst, H. (1957) Light scattering by small particles, New York: Wiley. Cerca con Google

220. Van de Hulst, H. (1980) Multiple Light Scattering, Tables, Formulas and Applications, Vols. 1, 2, Academic Pres.. Cerca con Google

221. Van de Hulst, H. (1981) Light scattering by small particles, New York: Dover Publications (unabridged and corrected republication of the work originally published in 1957 by J. Wiley and Sons, Inc.). Cerca con Google

222. Wall, S. D. (1981) Analysis of condensates formed at the Viking 2 lander site : the first winter, Icarus, 47, 173–183. Cerca con Google

223. Ward, W. R., B. C. Murray, and M. C. Malin (1974) Climatic variations on Mars. 2. Evolution of carbon dioxide atmosphere and polar caps, J. Geophys. Res., 79, 3387–3395. Cerca con Google

224. Warren, S. G. (1984) Optical constants of ice from the ultraviolet to the microwave, Appl. Opt., 23, 1206–1225. Cerca con Google

225. Warren, S. G. (1986) Optical constants of carbon dioxide ice, Appl. Opt., 25, 2650–2674. Cerca con Google

226. Warren, S. G. and Wiscombe, W. J. (1980) A model for the spextral albedo of snow. II. Snow containing atmospheric aerosols, J. Atmos. Sci. 37, 2734–2745. Cerca con Google

227. Warren, S. G., W. J. Wiscombe, and J. F. Firestone (1990) Spectral albedo and emissivity of CO2 in Martian polar caps: model results, J. Geophys. Res., 95, 717–741. Cerca con Google

228. Wiscombe, W. J. (1977) The delta-M method: rapid yet accurate radiative flux calculations for strongly asymmetric phase functions, J. Atmos. Sci., 34, 1408–1422. Cerca con Google

229. Wiscombe, W. J. (1980) Improved Mie scattering algorithms, Appl. Opt., 19(9), 1505–1509. Cerca con Google

230. Wiscombe, W. J. and Warren, S. G. (1980) A model for the spextral albedo of snow. I. pure snow, J. Atmos. Sci. 37, 2712–2733. Cerca con Google

231. Wiscombe, W. J. (1996) Mie Scattering Calculations: Advances in Technique and Fast, Vector-Speed Computer Codes.” NCAR Technical Note, June 1979 (edited/revised August 1996). Cerca con Google

232. Wolff, M. J., and R. T. Clancy (2003) Constraints on the size of Martian aerosols from Thermal Emission Spectrometer observations, J. Geophys. Res., 108(E9), 5097–5120. Cerca con Google

233. Wood, S. E., and D. A. Paige (1992) Modeling the martian seasonal CO2 cycle: fitting the Viking lander pressure curves, Icarus, 99, 1–14. Cerca con Google

234. Zurek, R., et al., Dynamics of the atmosphere of Mars (1992) In “Mars”, eds Kieffer et al., 853–933. Cerca con Google

235. Zurek, R. W., and L. J. Martin (1993) Interannual variability of planet-encircling dust storms on Mars, J. Geophys. Res., 98, 3247–3259. Cerca con Google

236. Zuber, M. T., and Smith, D. E. (2003) Observations of the seasonal polar icecaps of Mars at 1064 nm, Third Mars Polar Science Conference, abstract no.8032. Cerca con Google

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