Whistler waves generated by nongyrotropic and gyrotropic electron beams during asymmetric guide field reconnection

被引:11
作者
Choi, Seung [1 ,2 ]
Bessho, Naoki [1 ,2 ]
Wang, Shan [1 ,2 ]
Chen, Li-Jen [2 ]
Hesse, Michael [3 ]
机构
[1] Univ Maryland, Dept Astron, College Pk, MD 20742 USA
[2] NASA, Goddard Space Flight Ctr, Greenbelt, MD 20771 USA
[3] NASA, Ames Res Ctr, Mountain View, CA 94043 USA
关键词
DIFFUSION REGION; MAGNETIC RECONNECTION; DAYSIDE MAGNETOPAUSE; SEPARATRIX REGIONS; MMS OBSERVATIONS; MODE WAVES; X-LINE; VICINITY; ENERGIZATION; ACCELERATION;
D O I
10.1063/5.0059884
中图分类号
O35 [流体力学]; O53 [等离子体物理学];
学科分类号
070204 ; 080103 ; 080704 ;
摘要
Using a two-dimensional particle-in-cell simulation of asymmetric reconnection with a guide field whose strength is 0.3 times the reconnecting magnetic field, we study electron distribution functions and wave intensities in the diffusion region, focusing on the electron diffusion region (EDR). Wave activities with frequencies below the electron cyclotron frequency are observed, and these are whistler waves propagating almost anti-parallel to the magnetic field. The waves are concentrated near the magnetospheric separatrix away from the X line, but the wave activity also spreads through the EDR near the X line. The reconnection outflows are asymmetric in the outflow direction in the magnetospheric side, and the wave intensity is stronger in the side of the faster electron outflow. We study the whistler waves using the fast Fourier transform, analyses of electron velocity distribution functions, and the dispersion solver calculation. Along the magnetospheric separatrix in the stronger outflow side, highly anisotropic electron beams exist with super-Alfvenic drift speeds. The dispersion analysis shows that there are two modes: a temperature anisotropy mode and a beam mode. Outside the EDR, the whistler wave intensity is highest near the separatrix, but the wave intensity decreases if we move away from the separatrix toward the magnetic neutral line because of the increase in the electron population near zero parallel velocity. In the EDR, in the velocity plane perpendicular to the magnetic field, ring/crescent electron distribution functions are observed. Near the X-line, the wave power is enhanced where nongyrotropic electrons contribute to increase the perpendicular temperature anisotropy. (C) 2022 Author(s). All article content, except where otherwise noted, is licensed under a Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
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页数:18
相关论文
共 66 条
[1]   Effects of the guide field on electron distribution functions in the diffusion region of asymmetric reconnection [J].
Bessho, N. ;
Chen, L. -J. ;
Wang, S. ;
Hesse, M. .
PHYSICS OF PLASMAS, 2019, 26 (08)
[2]   The effect of reconnection electric field on crescent and U-shaped distribution functions in asymmetric reconnection with no guide field [J].
Bessho, N. ;
Chen, L. -J. ;
Hesse, M. ;
Wang, S. .
PHYSICS OF PLASMAS, 2017, 24 (07)
[3]   Electron distribution functions in the diffusion region of asymmetric magnetic reconnection [J].
Bessho, N. ;
Chen, L. -J. ;
Hesse, M. .
GEOPHYSICAL RESEARCH LETTERS, 2016, 43 (05) :1828-1836
[4]   Electron distribution functions in the electron diffusion region of magnetic reconnection: Physics behind the fine structures [J].
Bessho, N. ;
Chen, L-J ;
Shuster, J. R. ;
Wang, S. .
GEOPHYSICAL RESEARCH LETTERS, 2014, 41 (24) :8688-8695
[5]   High-Frequency Wave Generation in Magnetotail Reconnection: Linear Dispersion Analysis [J].
Burch, J. L. ;
Dokgo, K. ;
Hwang, K. J. ;
Torbert, R. B. ;
Graham, D. B. ;
Webster, J. M. ;
Ergun, R. E. ;
Giles, B. L. ;
Allen, R. C. ;
Chen, L-J ;
Wang, S. ;
Genestreti, K. J. ;
Russell, C. T. ;
Strangeway, R. J. ;
Le Contel, O. .
GEOPHYSICAL RESEARCH LETTERS, 2019, 46 (08) :4089-4097
[6]   Wave Phenomena and Beam-Plasma Interactions at the Magnetopause Reconnection Region [J].
Burch, J. L. ;
Webster, J. M. ;
Genestreti, K. J. ;
Torbert, R. B. ;
Giles, B. L. ;
Fuselier, S. A. ;
Dorelli, J. C. ;
Rager, A. C. ;
Phan, T. D. ;
Allen, R. C. ;
Chen, L. -J. ;
Wang, S. ;
Le Contel, O. ;
Russell, C. T. ;
Strangeway, R. J. ;
Ergun, R. E. ;
Jaynes, A. N. ;
Lindqvist, P. -A. ;
Graham, D. B. ;
Wilder, F. D. ;
Hwang, K. -J. ;
Goldstein, J. .
JOURNAL OF GEOPHYSICAL RESEARCH-SPACE PHYSICS, 2018, 123 (02) :1118-1133
[7]   Localized Oscillatory Energy Conversion in Magnetopause Reconnection [J].
Burch, J. L. ;
Ergun, R. E. ;
Cassak, P. A. ;
Webster, J. M. ;
Torbert, R. B. ;
Giles, B. L. ;
Dorelli, J. C. ;
Rager, A. C. ;
Hwang, K. -J. ;
Phan, T. D. ;
Genestreti, K. J. ;
Allen, R. C. ;
Chen, L. -J. ;
Wang, S. ;
Gershman, D. ;
Le Contel, O. ;
Russell, C. T. ;
Strangeway, R. J. ;
Wilder, F. D. ;
Graham, D. B. ;
Hesse, M. ;
Drake, J. F. ;
Swisdak, M. ;
Price, L. M. ;
Shay, M. A. ;
Lindqvist, P. -A. ;
Pollock, C. J. ;
Denton, R. E. ;
Newman, D. L. .
GEOPHYSICAL RESEARCH LETTERS, 2018, 45 (03) :1237-1245
[8]   Magnetic reconnection at the dayside magnetopause: Advances with MMS [J].
Burch, J. L. ;
Phan, T. D. .
GEOPHYSICAL RESEARCH LETTERS, 2016, 43 (16) :8327-8338
[9]   Electron-scale measurements of magnetic reconnection in space [J].
Burch, J. L. ;
Torbert, R. B. ;
Phan, T. D. ;
Chen, L. -J. ;
Moore, T. E. ;
Ergun, R. E. ;
Eastwood, J. P. ;
Gershman, D. J. ;
Cassak, P. A. ;
Argall, M. R. ;
Wang, S. ;
Hesse, M. ;
Pollock, C. J. ;
Giles, B. L. ;
Nakamura, R. ;
Mauk, B. H. ;
Fuselier, S. A. ;
Russell, C. T. ;
Strangeway, R. J. ;
Drake, J. F. ;
Shay, M. A. ;
Khotyaintsev, Yu. V. ;
Lindqvist, P. -A. ;
Marklund, G. ;
Wilder, F. D. ;
Young, D. T. ;
Torkar, K. ;
Goldstein, J. ;
Dorelli, J. C. ;
Avanov, L. A. ;
Oka, M. ;
Baker, D. N. ;
Jaynes, A. N. ;
Goodrich, K. A. ;
Cohen, I. J. ;
Turner, D. L. ;
Fennell, J. F. ;
Blake, J. B. ;
Clemmons, J. ;
Goldman, M. ;
Newman, D. ;
Petrinec, S. M. ;
Trattner, K. J. ;
Lavraud, B. ;
Reiff, P. H. ;
Baumjohann, W. ;
Magnes, W. ;
Steller, M. ;
Lewis, W. ;
Saito, Y. .
SCIENCE, 2016, 352 (6290)
[10]   MMS observations of whistler waves in electron diffusion region [J].
Cao, D. ;
Fu, H. S. ;
Cao, J. B. ;
Wang, T. Y. ;
Graham, D. B. ;
Chen, Z. Z. ;
Peng, F. Z. ;
Huang, S. Y. ;
Khotyaintsev, Y. V. ;
Andre, M. ;
Russell, C. T. ;
Giles, B. L. ;
Lindqvist, P. -A. ;
Torbert, R. B. ;
Ergun, R. E. ;
Le Contel, O. ;
Burch, J. L. .
GEOPHYSICAL RESEARCH LETTERS, 2017, 44 (09) :3954-3962