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THEMIS observations of ULF wave excitation in the nightside plasma sheet during sudden impulse events

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Zeitschriftentitel: Journal of Geophysical Research: Space Physics
Personen und Körperschaften: Shi, Q. Q., Hartinger, M., Angelopoulos, V., Zong, Q.‐G., Zhou, X.‐Z., Zhou, X.‐Y., Kellerman, A., Tian, A. M., Weygand, J., Fu, S. Y., Pu, Z. Y., Raeder, J., Ge, Y. S., Wang, Y. F., Zhang, H., Yao, Z. H.
In: Journal of Geophysical Research: Space Physics, 118, 2013, 1, S. 284-298
Format: E-Article
Sprache: Englisch
veröffentlicht:
American Geophysical Union (AGU)
Schlagwörter:
Space and Planetary Science
Geophysics
author_facet Shi, Q. Q.
Hartinger, M.
Angelopoulos, V.
Zong, Q.‐G.
Zhou, X.‐Z.
Zhou, X.‐Y.
Kellerman, A.
Tian, A. M.
Weygand, J.
Fu, S. Y.
Pu, Z. Y.
Raeder, J.
Ge, Y. S.
Wang, Y. F.
Zhang, H.
Yao, Z. H.
Shi, Q. Q.
Hartinger, M.
Angelopoulos, V.
Zong, Q.‐G.
Zhou, X.‐Z.
Zhou, X.‐Y.
Kellerman, A.
Tian, A. M.
Weygand, J.
Fu, S. Y.
Pu, Z. Y.
Raeder, J.
Ge, Y. S.
Wang, Y. F.
Zhang, H.
Yao, Z. H.
author Shi, Q. Q.
Hartinger, M.
Angelopoulos, V.
Zong, Q.‐G.
Zhou, X.‐Z.
Zhou, X.‐Y.
Kellerman, A.
Tian, A. M.
Weygand, J.
Fu, S. Y.
Pu, Z. Y.
Raeder, J.
Ge, Y. S.
Wang, Y. F.
Zhang, H.
Yao, Z. H.
spellingShingle Shi, Q. Q.
Hartinger, M.
Angelopoulos, V.
Zong, Q.‐G.
Zhou, X.‐Z.
Zhou, X.‐Y.
Kellerman, A.
Tian, A. M.
Weygand, J.
Fu, S. Y.
Pu, Z. Y.
Raeder, J.
Ge, Y. S.
Wang, Y. F.
Zhang, H.
Yao, Z. H.
Journal of Geophysical Research: Space Physics
THEMIS observations of ULF wave excitation in the nightside plasma sheet during sudden impulse events
Space and Planetary Science
Geophysics
author_sort shi, q. q.
spelling Shi, Q. Q. Hartinger, M. Angelopoulos, V. Zong, Q.‐G. Zhou, X.‐Z. Zhou, X.‐Y. Kellerman, A. Tian, A. M. Weygand, J. Fu, S. Y. Pu, Z. Y. Raeder, J. Ge, Y. S. Wang, Y. F. Zhang, H. Yao, Z. H. 2169-9380 2169-9402 American Geophysical Union (AGU) Space and Planetary Science Geophysics http://dx.doi.org/10.1029/2012ja017984 <jats:p>Sudden impulses (SIs) are an important source of ultra low frequency (ULF) wave activity throughout the Earth's magnetosphere. Most SI‐induced ULF wave events have been reported in the dayside magnetosphere; it is not clear when and how SIs drive ULF wave activity in the nightside plasma sheet. We examined the ULF response of the nightside plasma sheet to SIs using an ensemble of 13 SI events observed by THEMIS (Timed History of Events and Macroscale Interactions during Substorms) satellites (probes). Only three of these events resulted in ULF wave activity. The periods of the waves are found to be 3.3, 6.0, and 7.6 min. East‐west magnetic and radial electric field perturbations, which typically indicate the toroidal mode, are found to be stronger and can have phase relationships consistent with standing waves. Our results suggest that the two largest‐amplitude ULF responses to SIs in the nightside plasma sheet are tailward‐moving vortices, which have previously been reported, and the dynamic response of cross‐tail currents in the magnetotail to maintain force balance with the solar wind, which has not previously been reported as a ULF wave driver. Both mechanisms could potentially drive standing Alfvén waves (toroidal modes) observed via the field‐line resonance mechanism. Furthermore, both involve frequency selection and a preference for certain driving conditions that can explain the small number of ULF wave events associated with SIs in the nightside plasma sheet.</jats:p> THEMIS observations of ULF wave excitation in the nightside plasma sheet during sudden impulse events Journal of Geophysical Research: Space Physics
doi_str_mv 10.1029/2012ja017984
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title THEMIS observations of ULF wave excitation in the nightside plasma sheet during sudden impulse events
title_unstemmed THEMIS observations of ULF wave excitation in the nightside plasma sheet during sudden impulse events
title_full THEMIS observations of ULF wave excitation in the nightside plasma sheet during sudden impulse events
title_fullStr THEMIS observations of ULF wave excitation in the nightside plasma sheet during sudden impulse events
title_full_unstemmed THEMIS observations of ULF wave excitation in the nightside plasma sheet during sudden impulse events
title_short THEMIS observations of ULF wave excitation in the nightside plasma sheet during sudden impulse events
title_sort themis observations of ulf wave excitation in the nightside plasma sheet during sudden impulse events
topic Space and Planetary Science
Geophysics
url http://dx.doi.org/10.1029/2012ja017984
publishDate 2013
physical 284-298
description <jats:p>Sudden impulses (SIs) are an important source of ultra low frequency (ULF) wave activity throughout the Earth's magnetosphere. Most SI‐induced ULF wave events have been reported in the dayside magnetosphere; it is not clear when and how SIs drive ULF wave activity in the nightside plasma sheet. We examined the ULF response of the nightside plasma sheet to SIs using an ensemble of 13 SI events observed by THEMIS (Timed History of Events and Macroscale Interactions during Substorms) satellites (probes). Only three of these events resulted in ULF wave activity. The periods of the waves are found to be 3.3, 6.0, and 7.6 min. East‐west magnetic and radial electric field perturbations, which typically indicate the toroidal mode, are found to be stronger and can have phase relationships consistent with standing waves. Our results suggest that the two largest‐amplitude ULF responses to SIs in the nightside plasma sheet are tailward‐moving vortices, which have previously been reported, and the dynamic response of cross‐tail currents in the magnetotail to maintain force balance with the solar wind, which has not previously been reported as a ULF wave driver. Both mechanisms could potentially drive standing Alfvén waves (toroidal modes) observed via the field‐line resonance mechanism. Furthermore, both involve frequency selection and a preference for certain driving conditions that can explain the small number of ULF wave events associated with SIs in the nightside plasma sheet.</jats:p>
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author Shi, Q. Q., Hartinger, M., Angelopoulos, V., Zong, Q.‐G., Zhou, X.‐Z., Zhou, X.‐Y., Kellerman, A., Tian, A. M., Weygand, J., Fu, S. Y., Pu, Z. Y., Raeder, J., Ge, Y. S., Wang, Y. F., Zhang, H., Yao, Z. H.
author_facet Shi, Q. Q., Hartinger, M., Angelopoulos, V., Zong, Q.‐G., Zhou, X.‐Z., Zhou, X.‐Y., Kellerman, A., Tian, A. M., Weygand, J., Fu, S. Y., Pu, Z. Y., Raeder, J., Ge, Y. S., Wang, Y. F., Zhang, H., Yao, Z. H., Shi, Q. Q., Hartinger, M., Angelopoulos, V., Zong, Q.‐G., Zhou, X.‐Z., Zhou, X.‐Y., Kellerman, A., Tian, A. M., Weygand, J., Fu, S. Y., Pu, Z. Y., Raeder, J., Ge, Y. S., Wang, Y. F., Zhang, H., Yao, Z. H.
author_sort shi, q. q.
container_issue 1
container_start_page 284
container_title Journal of Geophysical Research: Space Physics
container_volume 118
description <jats:p>Sudden impulses (SIs) are an important source of ultra low frequency (ULF) wave activity throughout the Earth's magnetosphere. Most SI‐induced ULF wave events have been reported in the dayside magnetosphere; it is not clear when and how SIs drive ULF wave activity in the nightside plasma sheet. We examined the ULF response of the nightside plasma sheet to SIs using an ensemble of 13 SI events observed by THEMIS (Timed History of Events and Macroscale Interactions during Substorms) satellites (probes). Only three of these events resulted in ULF wave activity. The periods of the waves are found to be 3.3, 6.0, and 7.6 min. East‐west magnetic and radial electric field perturbations, which typically indicate the toroidal mode, are found to be stronger and can have phase relationships consistent with standing waves. Our results suggest that the two largest‐amplitude ULF responses to SIs in the nightside plasma sheet are tailward‐moving vortices, which have previously been reported, and the dynamic response of cross‐tail currents in the magnetotail to maintain force balance with the solar wind, which has not previously been reported as a ULF wave driver. Both mechanisms could potentially drive standing Alfvén waves (toroidal modes) observed via the field‐line resonance mechanism. Furthermore, both involve frequency selection and a preference for certain driving conditions that can explain the small number of ULF wave events associated with SIs in the nightside plasma sheet.</jats:p>
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spelling Shi, Q. Q. Hartinger, M. Angelopoulos, V. Zong, Q.‐G. Zhou, X.‐Z. Zhou, X.‐Y. Kellerman, A. Tian, A. M. Weygand, J. Fu, S. Y. Pu, Z. Y. Raeder, J. Ge, Y. S. Wang, Y. F. Zhang, H. Yao, Z. H. 2169-9380 2169-9402 American Geophysical Union (AGU) Space and Planetary Science Geophysics http://dx.doi.org/10.1029/2012ja017984 <jats:p>Sudden impulses (SIs) are an important source of ultra low frequency (ULF) wave activity throughout the Earth's magnetosphere. Most SI‐induced ULF wave events have been reported in the dayside magnetosphere; it is not clear when and how SIs drive ULF wave activity in the nightside plasma sheet. We examined the ULF response of the nightside plasma sheet to SIs using an ensemble of 13 SI events observed by THEMIS (Timed History of Events and Macroscale Interactions during Substorms) satellites (probes). Only three of these events resulted in ULF wave activity. The periods of the waves are found to be 3.3, 6.0, and 7.6 min. East‐west magnetic and radial electric field perturbations, which typically indicate the toroidal mode, are found to be stronger and can have phase relationships consistent with standing waves. Our results suggest that the two largest‐amplitude ULF responses to SIs in the nightside plasma sheet are tailward‐moving vortices, which have previously been reported, and the dynamic response of cross‐tail currents in the magnetotail to maintain force balance with the solar wind, which has not previously been reported as a ULF wave driver. Both mechanisms could potentially drive standing Alfvén waves (toroidal modes) observed via the field‐line resonance mechanism. Furthermore, both involve frequency selection and a preference for certain driving conditions that can explain the small number of ULF wave events associated with SIs in the nightside plasma sheet.</jats:p> THEMIS observations of ULF wave excitation in the nightside plasma sheet during sudden impulse events Journal of Geophysical Research: Space Physics
spellingShingle Shi, Q. Q., Hartinger, M., Angelopoulos, V., Zong, Q.‐G., Zhou, X.‐Z., Zhou, X.‐Y., Kellerman, A., Tian, A. M., Weygand, J., Fu, S. Y., Pu, Z. Y., Raeder, J., Ge, Y. S., Wang, Y. F., Zhang, H., Yao, Z. H., Journal of Geophysical Research: Space Physics, THEMIS observations of ULF wave excitation in the nightside plasma sheet during sudden impulse events, Space and Planetary Science, Geophysics
title THEMIS observations of ULF wave excitation in the nightside plasma sheet during sudden impulse events
title_full THEMIS observations of ULF wave excitation in the nightside plasma sheet during sudden impulse events
title_fullStr THEMIS observations of ULF wave excitation in the nightside plasma sheet during sudden impulse events
title_full_unstemmed THEMIS observations of ULF wave excitation in the nightside plasma sheet during sudden impulse events
title_short THEMIS observations of ULF wave excitation in the nightside plasma sheet during sudden impulse events
title_sort themis observations of ulf wave excitation in the nightside plasma sheet during sudden impulse events
title_unstemmed THEMIS observations of ULF wave excitation in the nightside plasma sheet during sudden impulse events
topic Space and Planetary Science, Geophysics
url http://dx.doi.org/10.1029/2012ja017984