Compact echelle spectrometer for occultation sounding of the Martian atmosphere: design and performance

被引:22
|
作者
Korablev, Oleg [1 ,2 ]
Montmessin, Franck [3 ]
Trokhimovsky, Alexander [1 ,2 ]
Fedorova, Anna A. [1 ,2 ]
Kiselev, Alexander V. [1 ,2 ]
Bertaux, Jean-Loup [3 ]
Goultail, Jean-Pierre [3 ]
Belyaev, Denis A. [1 ,2 ]
Stepanov, Alexander V. [1 ,4 ]
Titov, Andrei Yu. [5 ]
Kalinnikov, Yurii K. [6 ]
机构
[1] Space Res Inst IKI, Moscow 117997, Russia
[2] Moscow Inst Phys & Technol, Dolgoprudnyi 141700, Moscow Region, Russia
[3] LATMOS CNRS, F-78280 Guyancourt, France
[4] Moscow MV Lomonosov State Univ, Fac Phys, Moscow 119992, Russia
[5] Special Design Bur Space Instrumentat IKI SKBKP I, Tarusa 249810, Kaluga Region, Russia
[6] Natl Res Inst Phys Tech & Radiotech Measurements, Mendeleyevsk 141570, Moscow Region, Russia
来源
APPLIED OPTICS | 2013年 / 52卷 / 05期
关键词
VENUS-EXPRESS; MU-M; PHOBOS SPACECRAFT; SOLAR OCCULTATION; GLOBAL STRUCTURE; MARS-EXPRESS; WATER-VAPOR; METHANE; HDO; PROJECT;
D O I
10.1364/AO.52.001054
中图分类号
O43 [光学];
学科分类号
070207 ; 0803 ;
摘要
The echelle spectrometer TIMM-2 is the instrument developed for the unsuccessful Russian mission Phobos-Grunt. The instrument was dedicated to solar occultation studies of the Martian atmosphere by measuring the amount of methane, by sensitive measuring of other minor constituents, and by profiling the D/H ratio and the aerosol structure. The spectral range of the instrument is 2300-4100 nm, the spectral resolving power lambda/Delta lambda. exceeds 25,000, and the field of view is 1.5 x 21 arc min. The spectra are measured in narrow spectral intervals, corresponding to discreet diffraction orders. One measurement cycle includes several spectral intervals. To study the vertical profiles of aerosol, the instrument incorporates four photometers in the UV to near-IR spectral range. The mass of the instrument is 2800 g, and its power consumption is 12 W. One complete flight model remains available after the Phobos-Grunt launch. We discuss the science objectives of the occultation experiment for the case of Mars, the implementation of the instrument, and the results of ground calibrations. (C) 2013 Optical Society of America
引用
收藏
页码:1054 / 1065
页数:12
相关论文
共 50 条
  • [1] INFRARED SOLAR OCCULTATION SOUNDING OF THE MARTIAN ATMOSPHERE BY THE PHOBOS SPACECRAFT
    KRASNOPOLSKY, VA
    KORABLEV, OI
    MOROZ, VI
    KRYSKO, AA
    BLAMONT, JE
    CHASSEFIERE, E
    ICARUS, 1991, 94 (01) : 32 - 44
  • [2] MARTIAN ATMOSPHERE - MARINER OCCULTATION EXPERIMENT
    CHAMBERLAIN, JW
    MCELROY, MB
    SCIENCE, 1966, 152 (3718) : 21 - +
  • [3] SATELLITE SOLAR OCCULTATION SOUNDING OF THE MIDDLE ATMOSPHERE
    RUSSELL, JM
    PURE AND APPLIED GEOPHYSICS, 1980, 118 (1-2) : 616 - 635
  • [4] Developments of GNSS Radio Occultation for Sounding Atmosphere
    Wang Xiu-ping
    2009 INTERNATIONAL CONFERENCE ON ENVIRONMENTAL SCIENCE AND INFORMATION APPLICATION TECHNOLOGY,VOL I, PROCEEDINGS, 2009, : 653 - 656
  • [5] Optical design of a broadband spectrometer with compact structure based on echelle and concave gratings
    Fu, Xiao
    Duan, Fajie
    Jiang, Jiajia
    Bao, Ruijia
    Liu, Changwen
    Li, Tianyu
    Yu, Zhenxin
    OPTICS AND LASERS IN ENGINEERING, 2022, 151
  • [6] A new compact spectrometer on atmospheric sounding
    Li Huan
    Zhou Feng
    Wang Zheng
    Zhao Jia
    MULTISPECTRAL, HYPERSPECTRAL, AND ULTRASPECTRAL REMOTE SENSING TECHNOLOGY, TECHNIQUES AND APPLICATIONS V, 2014, 9263
  • [7] Compact echelle spectrometer employing a cross-grating
    Thomae, Daniel
    Hoenle, Tobias
    Kraus, Matthias
    Bagusat, Verena
    Deparnay, Arnaud
    Bruening, Robert
    Brunner, Robert
    APPLIED OPTICS, 2018, 57 (25) : 7109 - 7116
  • [8] The TIRVIM Fourier Spectrometer for Studying the Martian Atmosphere
    B. E. Moshkin
    A. V. Grigor’ev
    A. V. Shakun
    D. V. Patsaev
    A. V. Zharkov
    V. A. Vagin
    Instruments and Experimental Techniques, 2018, 61 : 130 - 135
  • [9] PFS: A Fourier spectrometer for the study of Martian atmosphere
    Formisano, V
    Moroz, VI
    Angrilli, F
    Bianchini, G
    Bussoletti, E
    Cafaro, N
    Capaccioni, F
    Capria, MT
    Cerroni, P
    Chionchio, G
    Colangeli, L
    Coradini, A
    DiLellis, A
    Fonti, S
    Orfei, R
    Palomba, E
    Piccioni, G
    Saggin, B
    Ekonomov, A
    Grigoriev, A
    Gnedykh, V
    Khatuntsev, I
    Kiselev, A
    Matsygorin, I
    Moshkin, B
    Nechaev, V
    Nikolsky, Y
    Patsaev, D
    Russakov, A
    Titov, D
    Zasova, L
    Blecka, MI
    Jurewicz, A
    Michalska, M
    Novosielski, W
    Orleanski, P
    Arnold, G
    Hirsch, H
    Driesher, H
    LopezMoreno, J
    Rodrigo, R
    RodriguezGomez, J
    Michel, G
    PLANETARY ATMOSPHERES AND IONOSPHERES AND REFERENCE ATMOSPHERES, 1997, 19 (08): : 1277 - 1280
  • [10] PFS:A fourier spectrometer for the study of Martian atmosphere
    Formisano, V.
    Moroz, V.I.
    Angrilli, F.
    Bianchini, G.
    Bussoletti, E.
    Cafaro, N.
    Capaccioni, F.
    Capria, M.T.
    Cerroni, P.
    Chionchio, G.
    Colangeli, L.
    Coradini, A.
    Di, Lellis, A.
    Fonti, S.
    Orfei, R.
    Palomba, E.
    Piccioni, G.
    Saggin, B.
    Ekonomov, A.
    Grigoriev, A.
    Gnedykh, V.
    Khatuntsev, I.
    Kiselev, A.
    Matsygorin, I.
    Moshkin, B.
    Nechaev, V.
    Nikolsky, Yu
    Patsaev, D.
    Russakov, A.
    Titov, D.
    Zasova, L.
    Blecka, M.I.
    Jurewicz, A.
    Michalska, M.
    Novosielski, W.
    Orleanski, P.
    Arnold, G.
    Hirsch, H.
    Driesher, H.
    Lopez-Moreno, J.
    Rodrigo, R.
    Rodriguez-Gomez, J.
    Michel, G.
    Advances in Space Research, 19 (08): : 1277 - 1280
12345