Shock ripples observed by the MMS spacecraft: ion reflection and dispersive properties
Shock ripples observed by the MMS spacecraft: ion reflection and dispersive properties
Shock ripples are ion-inertial-scale waves propagating within the front region of magnetized quasi-perpendicular collisionless shocks. The ripples are thought to influence particle dynamics and acceleration at shocks. With the four magnetospheric multiscale (MMS) spacecraft, it is for the first time possible to fully resolve the small scale ripples in space. We use observations of one slow crossing of the Earth's non-stationary bow shock by MMS. From multi-spacecraft measurements we show that the non-stationarity is due to ripples propagating along the shock surface. We find that the ripples are near linearly polarized waves propagating in the coplanarity plane with a phase speed equal to the local Alfvén speed and have a wavelength close to 5 times the upstream ion inertial length. The dispersive properties of the ripples resemble those of Alfvén ion cyclotron waves in linear theory. Taking advantage of the slow crossing by the four MMS spacecraft, we map the shock-reflected ions as a function of ripple phase and distance from the shock. We find that ions are preferentially reflected in regions of the wave with magnetic field stronger than the average overshoot field, while in the regions of lower magnetic field, ions penetrate the shock to the downstream region.
collisionless shocks, ion dynamics, ion reflection, magnetospheric multiscale, shock ripples, space plasma
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Johlander, Andreas
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Vaivads, Andris
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Khotyaintsev, Yuri V.
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Gingell, Imogen
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Schwartz, Steven J.
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Giles, Barbara L.
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Torbert, Roy B.
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Russell, Christopher T.
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6 November 2018
Johlander, Andreas
dd529118-6bfa-4ef4-8653-ee618adb7de2
Vaivads, Andris
8eae9e3e-8bfa-4363-a3ea-56e918930369
Khotyaintsev, Yuri V.
93eb939d-f13c-4b3e-ac38-2fd9e796f4dd
Gingell, Imogen
ba7b8113-3833-40d8-a879-aab3f987455d
Schwartz, Steven J.
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Giles, Barbara L.
eceb7be2-b272-40cb-a9af-82687b2708fd
Torbert, Roy B.
dfb49866-d44d-4404-81cd-22cef59d8f03
Russell, Christopher T.
9938ee7b-0590-4c5e-ac62-8658500dac22
Johlander, Andreas, Vaivads, Andris, Khotyaintsev, Yuri V., Gingell, Imogen, Schwartz, Steven J., Giles, Barbara L., Torbert, Roy B. and Russell, Christopher T.
(2018)
Shock ripples observed by the MMS spacecraft: ion reflection and dispersive properties.
Plasma Physics and Controlled Fusion, 60 (12), , [125006].
(doi:10.1088/1361-6587/aae920).
Abstract
Shock ripples are ion-inertial-scale waves propagating within the front region of magnetized quasi-perpendicular collisionless shocks. The ripples are thought to influence particle dynamics and acceleration at shocks. With the four magnetospheric multiscale (MMS) spacecraft, it is for the first time possible to fully resolve the small scale ripples in space. We use observations of one slow crossing of the Earth's non-stationary bow shock by MMS. From multi-spacecraft measurements we show that the non-stationarity is due to ripples propagating along the shock surface. We find that the ripples are near linearly polarized waves propagating in the coplanarity plane with a phase speed equal to the local Alfvén speed and have a wavelength close to 5 times the upstream ion inertial length. The dispersive properties of the ripples resemble those of Alfvén ion cyclotron waves in linear theory. Taking advantage of the slow crossing by the four MMS spacecraft, we map the shock-reflected ions as a function of ripple phase and distance from the shock. We find that ions are preferentially reflected in regions of the wave with magnetic field stronger than the average overshoot field, while in the regions of lower magnetic field, ions penetrate the shock to the downstream region.
Text
Shock Ripples Observed by the MMS spacecraft
- Accepted Manuscript
Text
Johlander 2018 Plasma Phys. Control. Fusion 60 125006
- Version of Record
More information
Accepted/In Press date: 17 October 2018
e-pub ahead of print date: 17 October 2018
Published date: 6 November 2018
Keywords:
collisionless shocks, ion dynamics, ion reflection, magnetospheric multiscale, shock ripples, space plasma
Identifiers
Local EPrints ID: 439026
URI: http://eprints.soton.ac.uk/id/eprint/439026
ISSN: 0741-3335
PURE UUID: 0a436438-2c96-49af-b57d-12044554ea43
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Date deposited: 01 Apr 2020 16:31
Last modified: 18 Mar 2024 03:55
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Contributors
Author:
Andreas Johlander
Author:
Andris Vaivads
Author:
Yuri V. Khotyaintsev
Author:
Steven J. Schwartz
Author:
Barbara L. Giles
Author:
Roy B. Torbert
Author:
Christopher T. Russell
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