Radiation and Dust Sensor for Mars Environmental Dynamic Analyzer Onboard M2020 Rover
Author:
Apestigue VictorORCID, Gonzalo AlejandroORCID, Jiménez JuanORCID, Boland Justin, Lemmon MarkORCID, de Mingo JoseORCID, García-Menendez ElisaORCID, Rivas Joaquín, Azcue Joaquín, Bastide Laurent, Andrés-Santiuste NuriaORCID, Martínez-Oter Javier, González-Guerrero Miguel, Martin-Ortega Alberto, Toledo Daniel, Alvarez-Rios Francisco, Serrano FelipeORCID, Martín-Vodopivec Boris, Manzano Javier, López Heredero RaquelORCID, Carrasco Isaías, Aparicio Sergio, Carretero Ángel, MacDonald Daniel, Moore Lori, Alcacera María, Fernández-Viguri Jose, Martín Israel, Yela Margarita, Álvarez Maite, Manzano Paula, Martín Jose, del Hoyo Juan, Reina Manuel, Urqui Roser, Rodriguez-Manfredi Jose, de la Torre Juárez Manuel, Hernandez Christina, Cordoba Elizabeth, Leiter Robin, Thompson Art, Madsen Soren, Smith Michael, Viúdez-Moreiras Daniel, Saiz-Lopez AlfonsoORCID, Sánchez-Lavega Agustín, Gomez-Martín LauraORCID, Martínez Germán, Gómez-Elvira Francisco, Arruego Ignacio
Abstract
The Radiation and Dust Sensor is one of six sensors of the Mars Environmental Dynamics Analyzer onboard the Perseverance rover from the Mars 2020 NASA mission. Its primary goal is to characterize the airbone dust in the Mars atmosphere, inferring its concentration, shape and optical properties. Thanks to its geometry, the sensor will be capable of studying dust-lifting processes with a high temporal resolution and high spatial coverage. Thanks to its multiwavelength design, it will characterize the solar spectrum from Mars’ surface. The present work describes the sensor design from the scientific and technical requirements, the qualification processes to demonstrate its endurance on Mars’ surface, the calibration activities to demonstrate its performance, and its validation campaign in a representative Mars analog. As a result of this process, we obtained a very compact sensor, fully digital, with a mass below 1 kg and exceptional power consumption and data budget features.
Funder
Spanish National Research, Development and Innovation Program
Subject
Electrical and Electronic Engineering,Biochemistry,Instrumentation,Atomic and Molecular Physics, and Optics,Analytical Chemistry
Cited by
19 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献
|
|