SULIS: A coronal magnetism explorer for ESA’s Voyage 2050

IF 2.7 3区 物理与天体物理 Q2 ASTRONOMY & ASTROPHYSICS
E. Scullion, H. Morgan, H. Lin, V. Fedun, R. Morton
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引用次数: 1

Abstract

Magnetism dominates the structure and dynamics of the solar corona. To understand the true nature of the solar corona and the long-standing coronal heating problem requires measuring the vector magnetic field of the corona at a sufficiently high resolution (spatially and temporally) across a large Field-of-View (FOV). Despite the importance of the magnetic field in the physics of the corona and despite the tremendous progress made recently in the remote sensing of solar magnetic fields, reliable measurements of the coronal magnetic field strength and orientation do not exist. This is largely due to the weakness of coronal magnetic fields, previously estimated to be on the order of 1-10 G, and the difficulty associated with observing the extremely faint solar corona emission. With the Solar cUbesats for Linked Imaging Spectro-polarimetry (SULIS) mission, we plan to finally observe, in detail and over the long-term, uninterrupted measurements of the coronal magnetic vector field using a new and very affordable instrument design concept. This will be profoundly important in the study of local atmospheric coronal heating processes, as well as in measuring the nature of magnetic clouds, in particular, within geoeffective Earth-bound Coronal Mass Ejections (CMEs) for more accurate forecasting of severe space weather activity.

Abstract Image

苏利斯:这是欧空局2050年航次的日冕磁力探测器
磁场支配着日冕的结构和动力学。为了了解日冕的真实性质和长期存在的日冕加热问题,需要在大视场(FOV)上以足够高的分辨率(空间和时间)测量日冕的矢量磁场。尽管磁场在日冕物理学中具有重要意义,尽管最近在太阳磁场遥感方面取得了巨大进展,但对日冕磁场强度和方向的可靠测量尚不存在。这在很大程度上是由于日冕磁场的弱,先前估计在1-10 G的量级,以及观测极其微弱的日冕辐射的困难。随着太阳立方体卫星的链接成像光谱偏振测量(SULIS)任务,我们计划最终观察,详细和长期的,不间断的日冕磁场测量使用一个新的和非常实惠的仪器设计概念。这对于研究当地大气日冕加热过程,以及测量磁云的性质,特别是对地球有效的地球日冕物质抛射(cme)的性质,对于更准确地预测严重的空间天气活动,将具有深远的意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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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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