Mars’ plasma system. Scientific potential of coordinated multipoint missions: “The next generation”

IF 2.7 3区 物理与天体物理 Q2 ASTRONOMY & ASTROPHYSICS Experimental Astronomy Pub Date : 2021-11-13 DOI:10.1007/s10686-021-09790-0
Beatriz Sánchez-Cano, Mark Lester, David J. Andrews, Hermann Opgenoorth, Robert Lillis, François Leblanc, Christopher M. Fowler, Xiaohua Fang, Oleg Vaisberg, Majd Mayyasi, Mika Holmberg, Jingnan Guo, Maria Hamrin, Christian Mazelle, Kerstin Peter, Martin Pätzold, Katerina Stergiopoulou, Charlotte Goetz, Vladimir Nikolaevich Ermakov, Sergei Shuvalov, James A. Wild, Pierre-Louis Blelly, Michael Mendillo, Cesar Bertucci, Marco Cartacci, Roberto Orosei, Feng Chu, Andrew J. Kopf, Zachary Girazian, Michael T. Roman
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引用次数: 10

Abstract

The objective of this White Paper, submitted to ESA’s Voyage 2050 call, is to get a more holistic knowledge of the dynamics of the Martian plasma system, from its surface up to the undisturbed solar wind outside of the induced magnetosphere. This can only be achieved with coordinated multi-point observations with high temporal resolution as they have the scientific potential to track the whole dynamics of the system (from small to large scales), and they constitute the next generation of the exploration of Mars analogous to what happened at Earth a few decades ago. This White Paper discusses the key science questions that are still open at Mars and how they could be addressed with coordinated multipoint missions. The main science questions are: (i) How does solar wind driving impact the dynamics of the magnetosphere and ionosphere? (ii) What is the structure and nature of the tail of Mars’ magnetosphere at all scales? (iii) How does the lower atmosphere couple to the upper atmosphere? (iv) Why should we have a permanent in-situ Space Weather monitor at Mars? Each science question is devoted to a specific plasma region, and includes several specific scientific objectives to study in the coming decades. In addition, two mission concepts are also proposed based on coordinated multi-point science from a constellation of orbiting and ground-based platforms, which focus on understanding and solving the current science gaps.

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火星等离子体系统。协同多点任务的科学潜力:“下一代”
这份白皮书提交给欧空局的“航行2050”项目,其目的是为了更全面地了解火星等离子体系统的动力学,从火星表面一直到诱导磁层外未受干扰的太阳风。这只能通过高时间分辨率的协调多点观测来实现,因为它们具有跟踪系统整体动态(从小尺度到大尺度)的科学潜力,它们构成了下一代火星探索,类似于几十年前在地球上发生的事情。本白皮书讨论了在火星上仍然存在的关键科学问题,以及如何通过协调的多点任务来解决这些问题。主要的科学问题是:(1)太阳风驱动如何影响磁层和电离层的动力学?(ii)在所有尺度上,火星磁层尾部的结构和性质是什么?(iii)低层大气如何与高层大气耦合?(四)为什么我们要在火星上建立一个永久性的原位空间天气监测器?每个科学问题都致力于一个特定的等离子体区域,并包括未来几十年要研究的几个特定科学目标。此外,还提出了基于轨道和地面平台星座协同多点科学的两个任务概念,重点了解和解决当前的科学空白。
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来源期刊
Experimental Astronomy
Experimental Astronomy 地学天文-天文与天体物理
CiteScore
5.30
自引率
3.30%
发文量
57
审稿时长
6-12 weeks
期刊介绍: Many new instruments for observing astronomical objects at a variety of wavelengths have been and are continually being developed. Furthermore, a vast amount of effort is being put into the development of new techniques for data analysis in order to cope with great streams of data collected by these instruments. Experimental Astronomy acts as a medium for the publication of papers of contemporary scientific interest on astrophysical instrumentation and methods necessary for the conduct of astronomy at all wavelength fields. Experimental Astronomy publishes full-length articles, research letters and reviews on developments in detection techniques, instruments, and data analysis and image processing techniques. Occasional special issues are published, giving an in-depth presentation of the instrumentation and/or analysis connected with specific projects, such as satellite experiments or ground-based telescopes, or of specialized techniques.
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