Your search keyword '"Burch, Jim L."' showing total 7 results

1. Turbulence-driven ion beams in the magnetospheric Kelvin-Helmholtz instability

Author

Sorriso-Valvo, Luca, Catapano, Filomena, Retinò, Alessandro, Contel, Olivier Le, Perrone, Denise, Roberts, Owen W., Coburn, Jesse T., Panebianco, Vincenzo, Valentini, Francesco, Perri, Silvia, Greco, Antonella, Malara, Francesco, Carbone, Vincenzo, Veltri, Pierluigi, Pezzi, Oreste, Fraternale, Federico, Di Mare, Francesca, Marino, Raffaele, Giles, Barbara, Moore, Thomas E., Russell, Christopher T., Torbert, Roy B., Burch, Jim L., and Khotyaintsev, Yuri V.

Subjects

Physics - Space Physics, Physics - Plasma Physics

Abstract

The description of the local turbulent energy transfer, and the high-resolution ion distributions measured by the Magnetospheric Multiscale mission, together provide a formidable tool to explore the cross-scale connection between the fluid-scale energy cascade and plasma processes at sub-ion scales. When the small-scale energy transfer is dominated by Alfv\'enic, correlated velocity and magnetic field fluctuations, beams of accelerated particles are more likely observed. Here, for the first time we report observations suggesting the nonlinear wave-particle interaction as one possible mechanism for the energy dissipation in space plasmas., Comment: Includes Supplemental material

Published

2019

2. MMS observation of asymmetric reconnection supported by 3-D electron pressure divergence

Author

Genestreti, Kevin J., Varsani, Ali, Burch, Jim L., Cassak, Paul A., Torbert, Roy B., Nakamura, Rumi, Ergun, Robert E., Phan, Tai D., Toledo-Redondo, Sergio, Hesse, Michael, Wang, Shan, Giles, Barbara L., Russell, Chris T., Vörös, Zoltan, Kim, Kyoung-Joo, Eastwood, Jonathan P., Lavraud, Benoit, Escoubet, C. Philippe, Fear, Robert C., Khotyaintsev, Yuri, Nakamura, Takuma, Webster, James M., and Baumjohann, Wolfgang

Subjects

Physics - Space Physics

Abstract

We identify a dayside electron diffusion region (EDR) encountered by the Magnetospheric Multiscale (MMS) mission and estimate the terms in generalized Ohm's law that controlled energy conversion near the X-point. MMS crossed the moderate-shear (130 degrees) magnetopause southward of the exact X-point. MMS likely entered the magnetopause far from the X-point, outside the EDR, as the size of the reconnection layer was less than but comparable to the magnetosheath proton gyro-radius, and also as anisotropic gyrotropic "outflow" crescent electron distributions were observed. MMS then approached the X-point, where all four spacecraft simultaneously observed signatures of the EDR, e.g., an intense out-of-plane electron current, moderate electron agyrotropy, intense electron anisotropy, non-ideal electric fields, non-ideal energy conversion, etc. We find that the electric field associated with the non-ideal energy conversion is (a) well described by the sum of the electron inertial and pressure divergence terms in generalized Ohms law though (b) the pressure divergence term dominates the inertial term by roughly a factor of 5:1, (c) both the gyrotropic and agyrotropic pressure forces contribute to energy conversion at the X-point, and (d) both out-of-the-reconnection-plane gradients (d/dM) and in-plane (d/dL,N) in the pressure tensor contribute to energy conversion near the X-point. This indicates that this EDR had some electron-scale structure in the out-of-plane direction during the time when (and at the location where) the reconnection site was observed., Comment: Submitted to JGR Space Physics (November 2017), resubmitted after 1st round of minor revisions (January 2018)

Published

2017

3. Reconnection site and ion scale turbulence generation

Author

Vaivads, Andris, primary, Liu, Chengming, additional, Khotyaintsev, Yuri V., additional, Graham, Daniel B., additional, Lindqvist, Per-Arne, additional, Torbert, Roy B., additional, Burch, Jim L., additional, Russell, Christopher T., additional, Contel, Olivier Le, additional, Giles, Barbara L., additional, and Gershman, Daniel J., additional

Published

2020

4. Cluster and MMS Simultaneous Observations of Magnetosheath High Speed Jets and Their Impact on the Magnetopause

Author

Escoubet, C. Philippe, primary, Hwang, K.-J., additional, Toledo-Redondo, S., additional, Turc, L., additional, Haaland, S. E., additional, Aunai, N., additional, Dargent, J., additional, Eastwood, Jonathan P., additional, Fear, R. C., additional, Fu, H., additional, Genestreti, K. J., additional, Graham, Daniel B., additional, Khotyaintsev, Yu V., additional, Lapenta, G., additional, Lavraud, Benoit, additional, Norgren, C., additional, Sibeck, D. G., additional, Varsani, A., additional, Berchem, J., additional, Dimmock, A. P., additional, Paschmann, G., additional, Dunlop, M., additional, Bogdanova, Y. V., additional, Roberts, Owen, additional, Laakso, H., additional, Masson, Arnaud, additional, Taylor, M. G. G. T., additional, Kajdič, P., additional, Carr, C., additional, Dandouras, I., additional, Fazakerley, A., additional, Nakamura, R., additional, Burch, Jim L., additional, Giles, B. L., additional, Pollock, C., additional, Russell, C. T., additional, and Torbert, R. B., additional

Published

2020

5. MMS observation of asymmetric reconnection supported by 3-D electron pressure divergence

Author

Genestreti, Kevin J., Varsani, Ali, Burch, Jim L., Cassak, Paul A., Torbert, Roy B., Nakamura, Rumi, Ergun, Robert E., Phan, Tai D., Toledo-Redondo, Sergio, Hesse, Michael, Wang, Shan, Giles, Barbara L., Russell, Chris T., Vörös, Zoltan, Kim, Kyoung-Joo, Eastwood, Jonathan P., Lavraud, Benoit, Escoubet, C. Philippe, Fear, Robert C., Khotyaintsev, Yuri, Nakamura, Takuma, Webster, James M., Baumjohann, Wolfgang, and Science and Technology Facilities Council (STFC)

Subjects

Science & Technology, WAVES, FOS: Physical sciences, Astronomy & Astrophysics, X LINE, Space Physics (physics.space-ph), DRIFT, Physics - Space Physics, MAGNETIC RECONNECTION, MAGNETOPAUSE RECONNECTION, Physics::Space Physics, Physical Sciences, DIFFUSION REGION, TURBULENCE, PARALLEL, FIELD, MAGNETOSPHERIC MULTISCALE OBSERVATIONS

Abstract

We identify a dayside electron diffusion region (EDR) encountered by the Magnetospheric Multiscale (MMS) mission and estimate the terms in generalized Ohm's law that controlled energy conversion near the X-point. MMS crossed the moderate-shear (130 degrees) magnetopause southward of the exact X-point. MMS likely entered the magnetopause far from the X-point, outside the EDR, as the size of the reconnection layer was less than but comparable to the magnetosheath proton gyro-radius, and also as anisotropic gyrotropic "outflow" crescent electron distributions were observed. MMS then approached the X-point, where all four spacecraft simultaneously observed signatures of the EDR, e.g., an intense out-of-plane electron current, moderate electron agyrotropy, intense electron anisotropy, non-ideal electric fields, non-ideal energy conversion, etc. We find that the electric field associated with the non-ideal energy conversion is (a) well described by the sum of the electron inertial and pressure divergence terms in generalized Ohms law though (b) the pressure divergence term dominates the inertial term by roughly a factor of 5:1, (c) both the gyrotropic and agyrotropic pressure forces contribute to energy conversion at the X-point, and (d) both out-of-the-reconnection-plane gradients (d/dM) and in-plane (d/dL,N) in the pressure tensor contribute to energy conversion near the X-point. This indicates that this EDR had some electron-scale structure in the out-of-plane direction during the time when (and at the location where) the reconnection site was observed., Comment: Submitted to JGR Space Physics (November 2017), resubmitted after 1st round of minor revisions (January 2018)

Published

2018

6. Turbulence-Driven Ion Beams in the Magnetospheric Kelvin-Helmholtz Instability

Author

Sorriso-Valvo, Luca, primary, Catapano, Filomena, additional, Retinò, Alessandro, additional, Le Contel, Olivier, additional, Perrone, Denise, additional, Roberts, Owen W., additional, Coburn, Jesse T., additional, Panebianco, Vincenzo, additional, Valentini, Francesco, additional, Perri, Silvia, additional, Greco, Antonella, additional, Malara, Francesco, additional, Carbone, Vincenzo, additional, Veltri, Pierluigi, additional, Pezzi, Oreste, additional, Fraternale, Federico, additional, Di Mare, Francesca, additional, Marino, Raffaele, additional, Giles, Barbara, additional, Moore, Thomas E., additional, Russell, Christopher T., additional, Torbert, Roy B., additional, Burch, Jim L., additional, and Khotyaintsev, Yuri V., additional

Published

2019

7. Electromagnetic wave activity detected by MMS at the vicinity of the magnetopause and its relation to heating and acceleration of particles

Author

Olivier Le Contel, Alessandro Retinò, Hugo Breuillard, Matthieu Berthomier, Laurent Mirioni, Fouad Sahraoui, Thomas Chust, Chasapis, A., Aunai, N., Benoit Lavraud, Per-Arne Lindqvist, Khotyaintsev, Y. V., Vaivads, A., Goran Marklund, Ergun, Robert E., Katherine Goodrich, Wilder, Frederick D., Matthew Argall, Burch, Jim L., Torbert, Roy B., Laboratoire de Physique des Plasmas (LPP), Université Paris-Saclay-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Université Paris-Sud - Paris 11 (UP11)-École polytechnique (X)-Observatoire de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL), Royal Institute of Technology [Stockholm] (KTH ), and Swedish Institute of Space Physics [Uppsala] (IRF)

Subjects

[PHYS.PHYS.PHYS-PLASM-PH]Physics [physics]/Physics [physics]/Plasma Physics [physics.plasm-ph], [PHYS.ASTR]Physics [physics]/Astrophysics [astro-ph]

Abstract

International audience; In the present study, we analyze different dayside magnetopause crossings detected by the MMS mission in order to investigate the relation between the electromagnetic wave activity and particle heating/acceleration. In particular, our study is focused on two different frequency ranges: (1) 1-10 Hz range which corresponds to the frequency domain of kinetic Alfvén and lower-hybrid waves, (2) 10 Hz-1kHz which corresponds mainly to the whistler mode wave frequency domain. After characterizing the different types of waves, we estimate their respective energy content as well as their possible role for heating and accelerating the plasma.