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Exploring solar-terrestrial interactions via multiple imaging observers

Exploring solar-terrestrial interactions via multiple imaging observers
Exploring solar-terrestrial interactions via multiple imaging observers

How does solar wind energy flow through the Earth’s magnetosphere, how is it converted and distributed? is the question we want to address. We need to understand how geomagnetic storms and substorms start and grow, not just as a matter of scientific curiosity, but to address a clear and pressing practical problem: space weather, which can influence the performance and reliability of our technological systems, in space and on the ground, and can endanger human life and health. Much knowledge has already been acquired over the past decades, particularly by making use of multiple spacecraft measuring conditions in situ, but the infant stage of space weather forecasting demonstrates that we still have a vast amount of learning to do. A novel global approach is now being taken by a number of space imaging missions which are under development and the first tantalising results of their exploration will be available in the next decade. In this White Paper, submitted to ESA in response to the Voyage 2050 Call, we propose the next step in the quest for a complete understanding of how the Sun controls the Earth’s plasma environment: a tomographic imaging approach comprising two spacecraft in highly inclined polar orbits, enabling global imaging of magnetopause and cusps in soft X-rays, of auroral regions in FUV, of plasmasphere and ring current in EUV and ENA (Energetic Neutral Atoms), alongside in situ measurements. Such a mission, encompassing the variety of physical processes determining the conditions of geospace, will be crucial on the way to achieving scientific closure on the question of solar-terrestrial interactions.

Coupling, Global imaging, In Situ measurements, Ionosphere, Magnetosphere, Solar wind
0922-6435
361-390
Branduardi-Raymont, G.
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Berthomier, M.
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Bogdanova, Y.V.
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Carter, J.A.
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Collier, M.
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Dimmock, A.
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Dunlop, M.
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Fear, R.C.
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Forsyth, C.
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Hubert, B.
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Kronberg, E.A.
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Laundal, K.M.
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Lester, M.
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Milan, S.
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Oksavik, K.
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Østgaard, N.
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Palmroth, M.
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Plaschke, F.
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Porter, F.S.
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Rae, I.J.
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Read, A.
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Samsonov, A.A.
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Sembay, S.
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Shprits, Y.
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Sibeck, D.G.
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Walsh, B.
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Yamauchi, M.
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Branduardi-Raymont, G.
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Berthomier, M.
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Bogdanova, Y.V.
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Carter, J.A.
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Collier, M.
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Dimmock, A.
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Dunlop, M.
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Fear, R.C.
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Forsyth, C.
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Hubert, B.
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Kronberg, E.A.
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Laundal, K.M.
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Lester, M.
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Milan, S.
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Oksavik, K.
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Østgaard, N.
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Palmroth, M.
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Plaschke, F.
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Porter, F.S.
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Rae, I.J.
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Read, A.
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Samsonov, A.A.
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Sembay, S.
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Shprits, Y.
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Sibeck, D.G.
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Walsh, B.
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Yamauchi, M.
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Branduardi-Raymont, G., Berthomier, M., Bogdanova, Y.V., Carter, J.A., Collier, M., Dimmock, A., Dunlop, M., Fear, R.C., Forsyth, C., Hubert, B., Kronberg, E.A., Laundal, K.M., Lester, M., Milan, S., Oksavik, K., Østgaard, N., Palmroth, M., Plaschke, F., Porter, F.S., Rae, I.J., Read, A., Samsonov, A.A., Sembay, S., Shprits, Y., Sibeck, D.G., Walsh, B. and Yamauchi, M. (2021) Exploring solar-terrestrial interactions via multiple imaging observers. Experimental Astronomy, 54, 361-390. (doi:10.1007/s10686-021-09784-y).

Record type: Article

Abstract

How does solar wind energy flow through the Earth’s magnetosphere, how is it converted and distributed? is the question we want to address. We need to understand how geomagnetic storms and substorms start and grow, not just as a matter of scientific curiosity, but to address a clear and pressing practical problem: space weather, which can influence the performance and reliability of our technological systems, in space and on the ground, and can endanger human life and health. Much knowledge has already been acquired over the past decades, particularly by making use of multiple spacecraft measuring conditions in situ, but the infant stage of space weather forecasting demonstrates that we still have a vast amount of learning to do. A novel global approach is now being taken by a number of space imaging missions which are under development and the first tantalising results of their exploration will be available in the next decade. In this White Paper, submitted to ESA in response to the Voyage 2050 Call, we propose the next step in the quest for a complete understanding of how the Sun controls the Earth’s plasma environment: a tomographic imaging approach comprising two spacecraft in highly inclined polar orbits, enabling global imaging of magnetopause and cusps in soft X-rays, of auroral regions in FUV, of plasmasphere and ring current in EUV and ENA (Energetic Neutral Atoms), alongside in situ measurements. Such a mission, encompassing the variety of physical processes determining the conditions of geospace, will be crucial on the way to achieving scientific closure on the question of solar-terrestrial interactions.

Text
s10686-021-09784-y - Version of Record
Available under License Creative Commons Attribution.
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More information

Accepted/In Press date: 20 July 2021
Published date: 16 August 2021
Additional Information: Publisher Copyright: © 2021, The Author(s).
Keywords: Coupling, Global imaging, In Situ measurements, Ionosphere, Magnetosphere, Solar wind

Identifiers

Local EPrints ID: 491570
URI: http://eprints.soton.ac.uk/id/eprint/491570
DOI: doi:10.1007/s10686-021-09784-y
ISSN: 0922-6435
PURE UUID: 9f1e0064-3b76-4df0-b489-16403986511e
ORCID for R.C. Fear: ORCID iD orcid.org/0000-0003-0589-7147

Catalogue record

Date deposited: 26 Jun 2024 16:42
Last modified: 27 Jun 2024 01:45

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Contributors

Author: G. Branduardi-Raymont
Author: M. Berthomier
Author: Y.V. Bogdanova
Author: J.A. Carter
Author: M. Collier
Author: A. Dimmock
Author: M. Dunlop
Author: R.C. Fear ORCID iD
Author: C. Forsyth
Author: B. Hubert
Author: E.A. Kronberg
Author: K.M. Laundal
Author: M. Lester
Author: S. Milan
Author: K. Oksavik
Author: N. Østgaard
Author: M. Palmroth
Author: F. Plaschke
Author: F.S. Porter
Author: I.J. Rae
Author: A. Read
Author: A.A. Samsonov
Author: S. Sembay
Author: Y. Shprits
Author: D.G. Sibeck
Author: B. Walsh
Author: M. Yamauchi

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