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Lower-Hybrid Drift Waves Driving Electron Nongyrotropic Heating and Vortical Flows in a Magnetic Reconnection LayerWe report measurements of lower-hybrid drift waves driving electron heating and vortical flows in an electron-scale reconnection layer under a guide field. Electrons accelerated by the electrostatic potential of the waves exhibit perpendicular and nongyrotropic heating. The vortical flows generate magnetic field perturbations comparable to the guide field magnitude. The measurements reveal a new regime of electron-wave interaction and how this interaction modifies the electron dynamics in the reconnection layer.
Document ID
20205003584
Acquisition Source
Goddard Space Flight Center
Document Type
Accepted Manuscript (Version with final changes)
Authors
L.-J. Chen (Goddard Space Flight Center Greenbelt, Maryland, United States)
S. Wang (University of Maryland, College Park College Park, Maryland, United States)
O. Le Contel (University of Paris-Sud Orsay, France)
A Rager (Goddard Space Flight Center Greenbelt, Maryland, United States)
M. Hesse (University of Bergen Bergen, Hordaland, Norway)
J. Drake (University of Maryland, College Park College Park, Maryland, United States)
J Dorelli (Goddard Space Flight Center Greenbelt, Maryland, United States)
J. Ng (University of Maryland, College Park College Park, Maryland, United States)
N. Bessho (University of Maryland, College Park College Park, Maryland, United States)
D. Graham (Swedish Institute of Space Physics Kiruna, Sweden)
Lynn B. Wilson, III (Goddard Space Flight Center Greenbelt, Maryland, United States)
T. Moore (Goddard Space Flight Center Greenbelt, Maryland, United States)
B Giles (Goddard Space Flight Center Greenbelt, Maryland, United States)
W Paterson (Goddard Space Flight Center Greenbelt, Maryland, United States)
B. Lavraud (University of Toulouse II - Le Mirail Toulouse, France)
K. Genestreti (University of New Hampshire Durham, New Hampshire, United States)
R. Nakamura (Austrian Academy of Sciences Vienna, Austria)
Yu. V. Khotyaintsev (Swedish Institute of Space Physics Kiruna, Sweden)
R. E. Ergun (University of Colorado Boulder Boulder, Colorado, United States)
R. B. Torbert (University of New Hampshire Durham, New Hampshire, United States)
J. Burch (Southwest Research Institute San Antonio, Texas, United States)
C. Pollock (Denali Scientific Fairbanks, Alaska, United States)
C. T. Russell (University of California, Los Angeles Los Angeles, California, United States)
P.-A. Lindqvist (Royal Institute of Technology Stockholm, Sweden)
L. Avanov (University of Maryland, College Park College Park, Maryland, United States)
Date Acquired
June 16, 2020
Publication Date
June 11, 2020
Publication Information
Publication: Physical Review Letters
Publisher: American Physical Society
Volume: 125
Issue: 2
Issue Publication Date: July 10, 2020
ISSN: 0031-9007
e-ISSN: 1079-7114
DOI: 10.1103/PhysRevLett.125.025103
Subject Category
Plasma Physics
Funding Number(s)
WBS: 958044
WBS: 943396
CONTRACT_GRANT: AGS-1619584
CONTRACT_GRANT: AGS-1552142
CONTRACT_GRANT: DESC0016278
CONTRACT_GRANT: 80NSSC18K1369
CONTRACT_GRANT: 80NSSC17K0012
Distribution Limits
Public
Copyright
Use by or on behalf of the US Gov. Permitted.
Technical Review
External Peer Committee

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