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Atmosphere and climate studies of Mars using the Mars Observer pressure modulator infrared radiometer (1992)

Haskins, R. D. ; Mccleese, D. J. ; Leovy, C. B. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: Studies of the climate and atmosphere of Mars are limited at present by a lack of meteorological data having systematic global coverage with good horizontal and vertical resolution. The Mars Observer spacecraft in a low, nearly circular, polar orbit will provide an excellent platform for acquiring the data needed to advance significantly our understanding of the Martian atmosphere and its remarkable variability. The Mars Observer pressure modulator infrared radiometer (PMIRR) is a nine-channel limb and nadir scanning atmospheric sounder which will observe the atmosphere of Mars globally from 0 to 80 km for a full Martian year. PMIRR employs narrow-band radiometric channels and two pressure modulation cells to measure atmospheric and surface emission in the thermal infrared. PMIRR infrared and visible measurements will be combined to determine the radiative balance of the polar regions, where a sizeable fraction of the global atmospheric mass annually condenses onto and sublimes from the surface. Derived meteorological fields, including diabatic heating and cooling and the vertical variation of horizontal winds, are computed from the globally mapped fields retrieved from PMIRR data.

Keywords: SPACECRAFT INSTRUMENTATION

Type: Journal of Geophysical Research (ISSN 0148-0227); 97; E5, M

Format: text

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Volatile Cycling and Layering on Mars: Observations, Theory and Modeling (2003)

Vasavada, A. R. ; Richardson, M. I. ; McCleese, D. J. ; [et al.]

In: CASI

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Publication Date: 2017-10-02

Description: With the release of Mars Odyssey Gamma Ray Spectrometer (GRS) results, which indicate the presence of vast reservoirs of near-surface ice in the martian polar regions, we are presented with an exquisite dilemma. These deposits, which are present as far down as 60 deg. latitude in both hemispheres, are consistent with the suggestion of thermal models that ice will be best protected in these extended regions during periods of higher obliquity. However, the current paradigm regarding the placement of these deposits, i.e., diffusive deposition of water vapor, appears to be inconsistent with the large volume mixing ratios (approx. 70%) inferred from the GRS data. This apparent conflict argues that diffusion alone cannot be the primary mechanism for the creation of these reservoirs, and that an alternate, large-scale process should be considered.

Keywords: Astrophysics

Type: Sixth International Conference on Mars; LPI-Contrib-1164

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