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Magnetic Reconnection Inside a Flux Rope Induced by Kelvin‐Helmholtz Vortices
- Hwang, K‐J;
- Dokgo, K;
- Choi, E;
- Burch, JL;
- Sibeck, DG;
- Giles, BL;
- Hasegawa, H;
- Fu, HS;
- Liu, Y;
- Wang, Z;
- Nakamura, TKM;
- Ma, X;
- Fear, RC;
- Khotyaintsev, Y;
- Graham, DB;
- Shi, QQ;
- Escoubet, CP;
- Gershman, DJ;
- Paterson, WR;
- Pollock, CJ;
- Ergun, RE;
- Torbert, RB;
- Dorelli, JC;
- Avanov, L;
- Russell, CT;
- Strangeway, RJ
- et al.
Published Web Location
https://doi.org/10.1029/2019ja027665Abstract
On 5 May 2017, MMS observed a crater-type flux rope on the dawnside tailward magnetopause with fluctuations. The boundary-normal analysis shows that the fluctuations can be attributed to nonlinear Kelvin-Helmholtz (KH) waves. Reconnection signatures such as flow reversals and Joule dissipation were identified at the leading and trailing edges of the flux rope. In particular, strong northward electron jets observed at the trailing edge indicated midlatitude reconnection associated with the 3-D structure of the KH vortex. The scale size of the flux rope, together with reconnection signatures, strongly supports the interpretation that the flux rope was generated locally by KH vortex-induced reconnection. The center of the flux rope also displayed signatures of guide-field reconnection (out-of-plane electron jets, parallel electron heating, and Joule dissipation). These signatures indicate that an interface between two interlinked flux tubes was undergoing interaction, causing a local magnetic depression, resulting in an M-shaped crater flux rope, as supported by reconstruction.
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