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Observational evidence of accelerating electron holes and their effects on passing ions

Yue Dong, Zhigang Yuan (), Shiyong Huang, Zuxiang Xue, Xiongdong Yu, C. J. Pollock, R. B. Torbert and J. L. Burch
Additional contact information
Yue Dong: Wuhan University
Zhigang Yuan: Wuhan University
Shiyong Huang: Wuhan University
Zuxiang Xue: Wuhan University
Xiongdong Yu: Wuhan University
C. J. Pollock: Denali Scientific
R. B. Torbert: University of New Hampshire
J. L. Burch: Southwest Research Institute

Nature Communications, 2023, vol. 14, issue 1, 1-7

Abstract: Abstract As a universal structure in space plasma, electron holes represent an obvious signature of nonlinear process. Although the theory has a 60-year history, whether electron hole can finally accelerate ambient electrons (or ions) is quite controversial. Previous theory for one-dimensional holes predicts that net velocity change of passing electrons (or ions) occurs only if the holes have non-zero acceleration. However, the prediction has not yet been demonstrated in observations. Here, we report four electron holes whose acceleration/deceleration is obtained by fitting the spatial separations and detection time delays between different Magnetospheric Multiscale spacecraft. We find that electron hole acceleration/deceleration is related to the ion velocity distribution gradient at the hole’s velocity. We observe net velocity changes of ions passing through the accelerating/decelerating holes, in accordance with theoretical predictions. Therefore, we show that electron holes with non-zero acceleration can cause the velocity of passing ions to increase in the acceleration direction.

Date: 2023
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DOI: 10.1038/s41467-023-43033-4

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