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Heliophysics and space weather science at ∼1.5 AU: Knowledge gaps and need for space weather monitors at Mars

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posted on 2023-04-20, 11:36 authored by CO Lee, B Sánchez-Cano, GA DiBraccio, M Mayyasi, S Xu, P Chamberlin, E Davies, C Scolini, RJ Filwett, R Ramstad, E Palmerio, BJ Lynch, JG Luhmann, B Ehresmann, J Guo, RC Allen, S Vines, R Winslow, H Elliott
This perspective article discusses the knowledge gaps and open questions regarding the solar and interplanetary drivers of space weather conditions experienced at Mars during active and quiescent solar periods, and the need for continuous, routine observations to address them. For both advancing science and as part of the strategic planning for human exploration at Mars by the late 2030s, now is the time to consider a network of upstream space weather monitors at Mars. Our main recommendations for the heliophysics community are the following: 1. Support the advancement for understanding heliophysics and space weather science at ∼1.5 AU and continue the support of planetary science payloads and missions that provide such measurements. 2. Prioritize an upstream Mars L1 monitor and/or areostationary orbiters for providing dedicated, continuous observations of solar activity and interplanetary conditions at ∼1.5 AU. 3. Establish new or support existing 1) joint efforts between federal agencies and their divisions and 2) international collaborations to carry out #1 and #2.

Funding

Solar wind influence on terrestrial planets' upper atmospheres: unveiling their close interaction

Science and Technology Facilities Council

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The Role of Magnetic Connectivity and SEP Event History in Determining Seed Populations and Large SEP Events

National Aeronautics and Space Administration

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NASA HGI Grant 80NSSC21K073

CHARACTERIZATION OF THE MARTIAN PLASMA ENVIRONMENT RESPONSE TO EXTREME SOLAR TRANSIENT EVENTS WITH MGS DATA

National Aeronautics and Space Administration

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NASA SMD/Heliophysics and HEOMD/AES under the JPL subcontract 1273039

CHARACTERIZING THE RADIATION ENVIRONMENT IN ORBIT AND AT THE SURFACE OF MARS DURING THE LAST TWO SOLAR CYCLES

National Aeronautics and Space Administration

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NSF PREEVENTS program, Grant ICER-1854790

EVOLUTION AND INTERACTION OF TRANSIENTS IN THE INNER HELIOSPHERE AND THEIR EFFECTS ON GALACTIC COSMIC RAYS

National Aeronautics and Space Administration

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SOLAR WIND OBSERVATIONS DURING SOLAR CYCLE TRANSITION

National Aeronautics and Space Administration

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NSF AGS PRF Grant

History

Author affiliation

School of Physics & Astronomy, University of Leicester

Version

  • VoR (Version of Record)

Published in

Frontiers in Astronomy and Space Sciences

Volume

10

Publisher

Frontiers Media SA

eissn

2296-987X

Copyright date

2023

Available date

2023-04-20

Language

en

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