Journal article
P. Shi, E. E. Scime, M. H. Barbhuiya, P. A. Cassak, S. Adhikari, M. Swisdak, J. E. Stawarz
Physical Review Letters, vol. 131, 2023, pp. 155101
Physical Review Letters, vol. 131, 2023, pp. 155101
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Cite
APA
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Shi, P., Scime, E. E., Barbhuiya, M. H., Cassak, P. A., Adhikari, S., Swisdak, M., & Stawarz, J. E. (2023). Using direct laboratory measurements of electron temperature anisotropy to identify the heating mechanism in electron-only guide field magnetic reconnection. Physical Review Letters, 131, 155101 .
Chicago/Turabian
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Shi, P., E. E. Scime, M. H. Barbhuiya, P. A. Cassak, S. Adhikari, M. Swisdak, and J. E. Stawarz. “Using Direct Laboratory Measurements of Electron Temperature Anisotropy to Identify the Heating Mechanism in Electron-Only Guide Field Magnetic Reconnection.” Physical Review Letters 131 (2023): 155101 .
MLA
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Shi, P., et al. “Using Direct Laboratory Measurements of Electron Temperature Anisotropy to Identify the Heating Mechanism in Electron-Only Guide Field Magnetic Reconnection.” Physical Review Letters, vol. 131, 2023, p. 155101 .
BibTeX Click to copy
@article{p2023a,
title = {Using direct laboratory measurements of electron temperature anisotropy to identify the heating mechanism in electron-only guide field magnetic reconnection},
year = {2023},
journal = {Physical Review Letters},
pages = {155101 },
volume = {131},
author = {Shi, P. and Scime, E. E. and Barbhuiya, M. H. and Cassak, P. A. and Adhikari, S. and Swisdak, M. and Stawarz, J. E.}
}
