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Start Over Author "Le G" Journal journal of geophysical research: space physics
47 results on '"Le G"'

1. MMS Examination of FTEs at the Earth's Subsolar Magnetopause

Author

Akhavan-Tafti, M, Slavin, J. A, Le, G, Eastwood, J. P, Strangeway, R. J, Russell, C. T, Nakamura, R, Baumjohann, W, Torbert, R. B, Giles, B. L, Gershman, D. J, and Burch, J. L

Subjects
Geophysics
Abstract

Determining the magnetic field structure, electric currents, and plasma distributions within flux transfer event (FTE)-type flux ropes is critical to the understanding of their origin, evolution, and dynamics. Here the Magnetospheric Multiscale mission's high-resolution magnetic field and plasma measurements are used to identify FTEs in the vicinity of the subsolar magnetopause. The constant-alpha flux rope model is used to identify quasi-force free flux ropes and to infer the size, the core magnetic field strength, the magnetic flux content, and the spacecraft trajectories through these structures. Our statistical analysis determines a mean diameter of 1,700 ± 400 km (~30 ± 9 d(sub i)) and an average magnetic flux content of 100 ± 30 kWb for the quasi-force free FTEs at the Earth's subsolar magnetopause which are smaller than values reported by Cluster at high latitudes. These observed nonlinear size and magnetic flux content distributions of FTEs appear consistent with the plasmoid instability theory, which relies on the merging of neighboring, small-scale FTEs to generate larger structures. The ratio of the perpendicular to parallel components of current density, R(sub J), indicates that our FTEs are magnetically force-free, defined as R(sub J) < 1, in their core regions (<0.6 R(sub flux rope)). Plasma density is shown to be larger in smaller, newly formed FTEs and dropping with increasing FTE size. It is also shown that parallel ion velocity dominates inside FTEs with largest plasma density. Field-aligned flow facilitates the evacuation of plasma inside newly formed FTEs, while their core magnetic field strengthens with increasing FTE size.

Published
2018
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2. Empirical Modeling of the Storm Time Innermost Magnetosphere Using Van Allen Probes and THEMIS Data: Eastward and Banana Currents

Author

Stephens, G. K, Sitnov, M. I, Ukhorskiy, A. Y, Roelof, E. C, Tsyganenko, N. A, and Le, G

Subjects
Space Sciences (General)
Abstract

The structure of storm time currents in the inner magnetosphere, including its innermost region inside 4R(sub E), is studied for the first time using a modification of the empirical geomagnetic field model TS07D and new data from Van Allen Probes and Time History of Events and Macroscale Interactions during Substorms missions. It is shown that the model, which uses basis-function expansions instead of ad hoc current modules to approximate the magnetic field, consistently improves its resolution and magnetic field reconstruction with the increase of the number of basis functions and resolves the spatial structure and evolution of the innermost eastward current. This includes a connection between the westward ring current flowing largely at R > or approx. 3R(sub E) and the eastward ring current concentrated at R < or approx. 3R(sub E) resulting in a vortex current pattern. A similar pattern coined 'banana current' was previously inferred from the pressure distributions based on the energetic neutral atom imaging and first-principles ring current simulations. The morphology of the equatorial currents is dependent on storm phase. During the main phase, it is complex, with several asymmetries forming banana currents. Near SYM-H minimum, the banana current is strongest, is localized in the evening-midnight sector, and is more structured compared to the main phase. It then weakens during the recovery phase resulting in the equatorial currents to become mostly azimuthally symmetric.

Published
2016
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3. Observations of an Electron‐Cold Ion Component Reconnection at the Edge of an Ion‐Scale Antiparallel Reconnection at the Dayside Magnetopause

Author

Zhao, S. Q., primary, Zhang, H., additional, Liu, Terry Z., additional, Yan, Huirong, additional, Xiao, C. J., additional, Liu, Mingzhe, additional, Zong, Q.‐G., additional, Wang, Xiaogang, additional, Shi, Mijie, additional, Teng, Shangchun, additional, Wang, Huizi, additional, Rankin, R., additional, Pollock, C., additional, and Le, G., additional

Published
2021
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7. The Properties of Lion Roars and Electron Dynamics in Mirror Mode Waves Observed by the Magnetospheric MultiScale Mission

Author

Breuillard, H., primary, Le Contel, O., additional, Chust, T., additional, Berthomier, M., additional, Retino, A., additional, Turner, D. L., additional, Nakamura, R., additional, Baumjohann, W., additional, Cozzani, G., additional, Catapano, F., additional, Alexandrova, A., additional, Mirioni, L., additional, Graham, D. B., additional, Argall, M. R., additional, Fischer, D., additional, Wilder, F. D., additional, Gershman, D. J., additional, Varsani, A., additional, Lindqvist, P.‐A., additional, Khotyaintsev, Yu. V., additional, Marklund, G., additional, Ergun, R. E., additional, Goodrich, K. A., additional, Ahmadi, N., additional, Burch, J. L., additional, Torbert, R. B., additional, Needell, G., additional, Chutter, M., additional, Rau, D., additional, Dors, I., additional, Russell, C. T., additional, Magnes, W., additional, Strangeway, R. J., additional, Bromund, K. R., additional, Wei, H., additional, Plaschke, F., additional, Anderson, B. J., additional, Le, G., additional, Moore, T. E., additional, Giles, B. L., additional, Paterson, W. R., additional, Pollock, C. J., additional, Dorelli, J. C., additional, Avanov, L. A., additional, Saito, Y., additional, Lavraud, B., additional, Fuselier, S. A., additional, Mauk, B. H., additional, Cohen, I. J., additional, and Fennell, J. F., additional

Published
2018
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8. Lower Hybrid Drift Waves and Electromagnetic Electron Space‐Phase Holes Associated With Dipolarization Fronts and Field‐Aligned Currents Observed by the Magnetospheric Multiscale Mission During a Substorm

Author

Le Contel, O., primary, Nakamura, R., additional, Breuillard, H., additional, Argall, M. R., additional, Graham, D. B., additional, Fischer, D., additional, Retinò, A., additional, Berthomier, M., additional, Pottelette, R., additional, Mirioni, L., additional, Chust, T., additional, Wilder, F. D., additional, Gershman, D. J., additional, Varsani, A., additional, Lindqvist, P.‐A., additional, Khotyaintsev, Yu. V., additional, Norgren, C., additional, Ergun, R. E., additional, Goodrich, K. A., additional, Burch, J. L., additional, Torbert, R. B., additional, Needell, J., additional, Chutter, M., additional, Rau, D., additional, Dors, I., additional, Russell, C. T., additional, Magnes, W., additional, Strangeway, R. J., additional, Bromund, K. R., additional, Wei, H. Y., additional, Plaschke, F., additional, Anderson, B. J., additional, Le, G., additional, Moore, T. E., additional, Giles, B. L., additional, Paterson, W. R., additional, Pollock, C. J., additional, Dorelli, J. C., additional, Avanov, L. A., additional, Saito, Y., additional, Lavraud, B., additional, Fuselier, S. A., additional, Mauk, B. H., additional, Cohen, I. J., additional, Turner, D. L., additional, Fennell, J. F., additional, Leonard, T., additional, and Jaynes, A. N., additional

Published
2017
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17. Observations of DC electric fields in the low‐latitude ionosphere and their variations with local time, longitude, and plasma density during extreme solar minimum

Author

Pfaff, R., primary, Rowland, D., additional, Freudenreich, H., additional, Bromund, K., additional, Le, G., additional, Acuña, M., additional, Klenzing, J., additional, Liebrecht, C., additional, Martin, S., additional, Burke, W. J., additional, Maynard, N. C., additional, Hunton, D. E., additional, Roddy, P. A., additional, Ballenthin, J. O., additional, and Wilson, G. R., additional

Published
2010
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