Mapping the Topography of Mercury with MESSENGER Laser Altimetry.

机译：用mEssENGER激光测高法绘制水银地形图。

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The Mercury Laser Altimeter onboard MESSENGER involves unique design elements that deal with the challenges of being in orbit around Mercury. The Mercury Laser Altimeter (MLA) is one of seven instruments on NASA's MErcury Surface, Space ENvironment, GEochemistry, and Ranging (MESSENGER) spacecraft. MESSENGER was launched on 3 August 2004, and entered into orbit about Mercury on 18 March 2011 after a journey through the inner solar system. This involved six planetary flybys, including three of Mercury. MLA is designed to map the topography and landforms of Mercury's surface. It also measures the planet's forced libration (motion about the spin axis), which helps constrain the state of the core. The first science measurements from orbit taken with MLA were made on 29 March 2011 and continue to date. MLA had accumulated about 8.3 million laser ranging measurements to Mercury's surface, as of 31 July 2012, i.e., over six Mercury years (528 Earth days). Although MLA is the third planetary lidar built at the NASA Goddard Space Flight Center (GSFC), MLA must endure a much harsher thermal environment near Mercury than the previous instruments on Mars and Earth satellites. The design of MLA was derived in part from that of the Mars Orbiter Laser Altimeter on Mars Global Surveyor. However, MLA must range over greater distances and often in off-nadir directions from a highly eccentric orbit. In MLA we use a single-mode diode-pumped Nd:YAG (neodymium-doped yttrium aluminum garnet) laser that is highly collimated to maintain a small footprint on the planet. The receiver has both a narrow field of view and a narrow spectral bandwidth to minimize the amount of background light detected from the sunlit hemisphere of Mercury. We achieve the highest possible receiver sensitivity by employing the minimum receiver detection threshold.

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Sun, X.; Cavanaugh, J. F.; Neumann, G. A.; Smith, D. E.; Zubor, M. T.;
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年度 2012
页码 1-4
总页数 4
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Topography; Mercury surface; Messenger(Spacecraft); Laser altimeters; Thermal environments; Mars global surveyor; Multispectral linear arrays; Transmitters; Diodes; Neodymium; Spectral reflectance; Planetary orbits; Detection;

机译：地形;水星表面;信使（航天器）;激光测高仪;热环境;火星全球测量员;多光谱线性阵列;发射机;二极管;钕;光谱反射;行星轨道;探测;

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1. Topography of the Northern Hemisphere of Mercury from MESSENGER Laser Altimetry [J] . Maria T. Zuber, David E. Smith, Roger J. Phillips, Science . 2012,第6078期

机译：MESSENGER激光测高仪对水银北半球的地形
2. Support of long-wavelength topography on Mercury inferred from MESSENGER measurements of gravity and topography [J] . Peter B. James, Maria T. Zuber, Roger J. Phillips, Journal of geophysical research. Planets . 2015,第2期

机译：从MESSENGER对重力和形貌的测量中推断出，汞对长波形貌的支持
3. Orbital multispectral mapping of Mercury with the MESSENGER Mercury Dual Imaging System: Evidence for the origins of plains units and low-reflectance material [J] . Murchie Scott L., Klima Rachel L., Denevi Brett W., Icarus: International Journal of Solar System Studies . 2015,第Null期

机译：使用MESSENGER Mercury Dual成像系统对汞进行轨道多光谱制图：平原单元和低反射率物质起源的证据
4. The use of high-resolution field laser scanning for mapping surface topography in fluvial systems [C] . George Heritage, David Hetherington International Symposium on Sediment Budgets . 2005

机译：使用高分辨率场激光扫描在河流系统中进行映射表面形貌
5. Time-varying sea surface topography from satellite altimetry. [D] . Chambers, Don Phillip. 1996

机译：来自卫星测高仪的时变海面地形。
6. MESSENGER Gamma Ray Spectrometer and Epithermal Neutron Hydrogen Data Reveal Compositional Differences Between Mercurys Hot and Cold Poles [O] . Jack T. Wilson, David J. Lawrence, Patrick N. Peplowski, -1

机译：MESSENGER伽玛射线能谱仪和超热中子氢数据揭示了水银热极和冷极之间的成分差异
7. Topography of the Northern Hemisphere of Mercury from MESSENGER Laser Altimetry [O] . Zuber, Maria T., Smith, David E., Phillips, Roger J., 2012

机译：MESSENGER激光测高仪对水银北半球的地形

Mapping the Topography of Mercury with MESSENGER Laser Altimetry.

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