论文信息 - A sophisticated lander for scientific exploration of Mars: scientific objectives and implementation of the Mars-96 Small Station. - 字舞流文

A sophisticated lander for scientific exploration of Mars: scientific objectives and implementation of the Mars-96 Small Station.

A mission to Mars including two Small Stations, two Penetrators and an Orbiter was launched at Baikonur, Kazakhstan, on 16 November 1996. This was called the Mars-96 mission. The Small Stations were expected to land in September 1997 (Ls approximately 178 degrees), nominally to Amazonis-Arcadia region on locations (33 N, 169.4 W) and (37.6 N, 161.9 W). The fourth stage of the Mars-96 launcher malfunctioned and hence the mission was lost. However, the state of the art concept of the Small Station can be applied to future Martian lander missions. Also, from the manufacturing and performance point of view, the Mars-96 Small Station could be built as such at low cost, and be fairly easily accommodated on almost any forthcoming Martian mission. This is primarily due to the very simple interface between the Small Station and the spacecraft. The Small Station is a sophisticated piece of equipment. With the total available power of approximately 400 mW the Station successfully supports an ambitious scientific program. The Station accommodates a panoramic camera, an alpha-proton-x-ray spectrometer, a seismometer, a magnetometer, an oxidant instrument, equipment for meteorological observations, and sensors for atmospheric measurement during the descent phase, including images taken by a descent phase camera. The total mass of the Small Station with payload on the Martian surface, including the airbags, is only 32 kg. Lander observations on the surface of Mars combined with data from Orbiter instruments will shed light on the contemporary Mars and its evolution. As in the Mars-96 mission, specific science goals could be exploration of the interior and surface of Mars, investigation of the structure and dynamics of the atmosphere, the role of water and other materials containing volatiles and in situ studies of the atmospheric boundary layer processes. To achieve the scientific goals of the mission the lander should carry a versatile set of instruments. The Small Station accommodates devices for atmospheric measurements, geophysical and geochemical studies of the Martian surface and interior, and cameras for descent phase and panoramic views. These instruments would be able to contribute remarkably to the process of solving some of the scientific puzzles of Mars.

C P McKay | T. Economou | R. Rieder | J. Pommereau | A. Harri | K. Kumpulainen | F. Grunthaner | M. Menvielle | R. Pirjola | F. Kuhnke | P. Riihela | W. Schmidt | A. Lehto | A. Ekonomov | S. Korpela | R. Kremnev | R. Pellinen | J. Karczewski | A. Salminen | W Schmidt | V Linkin | A M Harri | A Lipatov | K Belostotskaja | B Derbunovich | A Ekonomov | L Khloustova | R Kremnev | V Makarov | B Martinov | D Nenarokov | M Prostov | A Pustovalov | G Shustko | I Jarvinen | H Kivilinna | S Korpela | K Kumpulainen | A Lehto | R Pellinen | R Pirjola | P Riihela | A Salminen | V. Linkin | A. Lipatov | V. Makarov | L. Khloustova | B. Martinov | J. Runavot | D. Vienne | H. Laplace | C. Malique | T. Carpentier | P. Lognonné | T. Siili | A. Pustovalov | D. Nenarokov | C. Mckay | K. Belostotskaja | B. Derbunovich | M. Prostov | G. Shustko | I. Jarvinen | H. Kivilinna | Christopher P. McKay | I. Järvinen | Risto Pirjola | Walter Schmidt | J. Blamont | A. Debus | C. T. Hua | P. Levacher | G. Mouli | K. Quotb | G. Musmann | H. Wanke | M. Herring | A. L. Lane

[1] J. Pollack,et al. Dynamics of the atmosphere of Mars , 1992 .

[2] D. Muhleman,et al. Mapping Mars water vapor with the Very Large Array , 1992 .

[3] M. Menvielle,et al. The OPTIMISM/MAG Mars-96 experiment: magnetic measurements onboard landers and related magnetic cleanliness program , 1998 .

[4] R. Haberle,et al. Sensitivity of Martian Southern polar cap edge winds and surface stresses to dust optical thickness and to the large-scale sublimation flow , 1997 .

[5] D. W. Davies,et al. Mars: Water vapor observations from the Viking orbiters , 1977 .

[6] H. Klein. The Viking biological experiments on Mars , 1978 .

[7] J. Tillman. Mars global atmospheric oscillations - Annually synchronized, transient normal-mode oscillations and the triggering of global dust storms , 1988 .

[8] R. Clancy,et al. Monitoring Mars with the Hubble Space Telescope: 1990-1991 Observations , 1994 .

[9] Tero Siili,et al. The Martian slope winds and the nocturnal PBL jet. , 1993 .

[10] Don L. Anderson,et al. Seismology on Mars , 1977 .

[11] L. Landberg,et al. The Boundary Layer of Mars: Fluxes, Stability, Turbulent Spectra, and Growth of the Mixed Layer , 1994 .

[12] Bruce M. Jakosky,et al. The planet Mars - From antiquity to the present , 1992 .

[13] J. Luhmann. Venus and Mars , 1990 .

[14] A. Harri,et al. Aspects of atmospheric science and instrumentation for martian missions , 1995 .

[15] W. H. Michael,et al. Lander locations, Mars physical Ephemeris, and solar system parameters: Determination from Viking Lander tracking data , 1977 .

[16] T. Siili. Modeling of albedo and thermal inertia induced mesoscale circulations in the midlatitude summertime Martian atmosphere , 1996 .

[17] David A. Paige,et al. The seasonal cycle of carbon dioxide on Mars , 1992 .

[18] B. Romanowicz,et al. The seismic OPTIMISM experiment , 1998 .

[19] Lorraine Schnabel,et al. Chemical composition of Martian fines , 1982 .

[20] E. Smith,et al. Mars in the solar wind , 1979 .

[21] V. Zharkov,et al. The physics of planetary interiors , 1985 .

[22] Gerald A. Soffen,et al. The Viking Project , 1977 .

[23] Richard W. Zurek,et al. The martian dust cycle. , 1992 .

[24] Philippe Lognonné,et al. Ultra broad band seismology on InterMarsNet , 1996 .

[25] Hannu Savijärvi,et al. Mars boundary layer modeling: Diurnal moisture cycle and soil properties at the Viking Lander 1 Site. , 1995 .

[26] R. M. Henry,et al. Meteorological results from the surface of Mars: Viking 1 and 2 , 1977 .

[27] M. Menvielle,et al. Contribution of surface magnetic recordings to planetary exploration , 1996 .