R. Hueso scite author profile

NASA’s Mars 2020 (M2020) rover mission includes a suite of sensors to monitor current environmental conditions near the surface of Mars and to constrain bulk aerosol properties from changes in atmospheric radiation at the surface. The Mars Environmental Dynamics Analyzer (MEDA) consists of a set of meteorological sensors including wind sensor, a barometer, a relative humidity sensor, a set of 5 thermocouples to measure atmospheric temperature at ∼1.5 m and ∼0.5 m above the surface, a set of thermopiles to characterize the thermal IR brightness temperatures of the surface and the lower atmosphere. MEDA adds a radiation and dust sensor to monitor the optical atmospheric properties that can be used to infer bulk aerosol physical properties such as particle size distribution, non-sphericity, and concentration. The MEDA package and its scientific purpose are described in this document as well as how it responded to the calibration tests and how it helps prepare for the human exploration of Mars. A comparison is also presented to previous environmental monitoring payloads landed on Mars on the Viking, Pathfinder, Phoenix, MSL, and InSight spacecraft.

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A Three-Dimensional Model of Moist Convection for the Giant Planets: The Jupiter Case

Hueso¹

2001

Icarus

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Instrumental methods for professional and amateur collaborations in planetary astronomy

Mousis

Hueso²,

Beaulieu

et al. 2014

Exp Astron

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Ice Giant Systems: The scientific potential of orbital missions to Uranus and Neptune

Fletcher

Helled

Roussos

et al. 2020

Planetary and Space Science

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R. Hueso

Mars 2020 Mission Overview

The Mars Environmental Dynamics Analyzer, MEDA. A Suite of Environmental Sensors for the Mars 2020 Mission

A Three-Dimensional Model of Moist Convection for the Giant Planets: The Jupiter Case

Instrumental methods for professional and amateur collaborations in planetary astronomy

Ice Giant Systems: The scientific potential of orbital missions to Uranus and Neptune

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