Ionospheric Pc1 waves during a storm recovery phase observed by the China Seismo-Electromagnetic Satellite

Ionospheric Pc1 waves during a storm recovery phase observed by the China Seismo-Electromagnetic Satellite

<p>During the storm recovery phase on 27 August 2018, the China Seismo-Electromagnetic Satellite (CSES) detected Pc1 wave activities in both the Northern Hemisphere and Southern Hemisphere in the high-latitude, post-midnight ionosphere with a central frequency of about 2&thinsp;Hz. Meanwhi...

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Main Authors: X. Gou, L. Li, Y. Zhang, B. Zhou, Y. Feng, B. Cheng, T. Raita, J. Liu, Z. Zhima, X. Shen
Format: Article
Language:English
Published: Copernicus Publications 2020-06-01
Series:Annales Geophysicae
Online Access:https://angeo.copernicus.org/articles/38/775/2020/angeo-38-775-2020.pdf
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spelling doaj-c2767c993f1c44b8a930bf54548598172020-11-25T02:17:31ZengCopernicus PublicationsAnnales Geophysicae0992-76891432-05762020-06-013877578710.5194/angeo-38-775-2020Ionospheric Pc1 waves during a storm recovery phase observed by the China Seismo-Electromagnetic SatelliteX. Gou0X. Gou1L. Li2L. Li3Y. Zhang4Y. Zhang5B. Zhou6B. Zhou7Y. Feng8Y. Feng9B. Cheng10B. Cheng11T. Raita12J. Liu13Z. Zhima14X. Shen15State Key Laboratory of Space Weather, National Space Science Center, Chinese Academy of Sciences, Beijing, ChinaJoint Research and Development Center of the Chinese Science Academy and Shen County, Shandong, ChinaState Key Laboratory of Space Weather, National Space Science Center, Chinese Academy of Sciences, Beijing, ChinaJoint Research and Development Center of the Chinese Science Academy and Shen County, Shandong, ChinaState Key Laboratory of Space Weather, National Space Science Center, Chinese Academy of Sciences, Beijing, ChinaJoint Research and Development Center of the Chinese Science Academy and Shen County, Shandong, ChinaState Key Laboratory of Space Weather, National Space Science Center, Chinese Academy of Sciences, Beijing, ChinaJoint Research and Development Center of the Chinese Science Academy and Shen County, Shandong, ChinaState Key Laboratory of Space Weather, National Space Science Center, Chinese Academy of Sciences, Beijing, ChinaJoint Research and Development Center of the Chinese Science Academy and Shen County, Shandong, ChinaState Key Laboratory of Space Weather, National Space Science Center, Chinese Academy of Sciences, Beijing, ChinaJoint Research and Development Center of the Chinese Science Academy and Shen County, Shandong, ChinaSodankylä Geophysical Observatory, University of Oulu, Sodankylä, FinlandState Key Laboratory of Space Weather, National Space Science Center, Chinese Academy of Sciences, Beijing, ChinaInstitute of Crustal Dynamics, China Earthquake Administration, Beijing, ChinaInstitute of Crustal Dynamics, China Earthquake Administration, Beijing, China<p>During the storm recovery phase on 27 August 2018, the China Seismo-Electromagnetic Satellite (CSES) detected Pc1 wave activities in both the Northern Hemisphere and Southern Hemisphere in the high-latitude, post-midnight ionosphere with a central frequency of about 2&thinsp;Hz. Meanwhile, the typical Pc1 waves were simultaneously observed for several hours by the Sodankylä Geophysical Observatory (SGO) stations on the ground. In this paper, we study the propagation characteristics and possible source regions of those waves. Firstly, we find that the Pc1 waves observed by the satellites exhibited mixed polarisation, and the wave normal is almost parallel with the background magnetic field. The field-aligned Poynting fluxes point downwards in both hemispheres, implying that the satellites are close to the wave injection regions in the ionosphere at about <span class="inline-formula"><i>L</i>=3</span>. Furthermore, we also find that the estimated position of the plasmapause calculated by models is almost at <span class="inline-formula"><i>L</i>=3</span>. Therefore, we suggest that the possible sources of waves are near the plasmapause, which is consistent with previous studies in that the outward expansion of the plasmasphere into the ring current during the recovery phase of geomagnetic storms may generate electromagnetic ion cyclotron (EMIC) waves, and these EMIC waves propagate northwards and southwards along the background magnetic field to the ionosphere at about <span class="inline-formula"><i>L</i>=3</span>. Additionally, the ground station data show that Pc1 wave power attenuates with increasing distance from <span class="inline-formula"><i>L</i>=3</span>, supporting the idea that the CSES observes the wave activities near the injection region. The observations are unique in that the Pc1 waves are observed in the ionosphere in nearly conjugate regions where transverse Alfvén waves propagate down into the ionosphere.</p>https://angeo.copernicus.org/articles/38/775/2020/angeo-38-775-2020.pdf
collection DOAJ
language English
format Article
sources DOAJ
author X. Gou
X. Gou
L. Li
L. Li
Y. Zhang
Y. Zhang
B. Zhou
B. Zhou
Y. Feng
Y. Feng
B. Cheng
B. Cheng
T. Raita
J. Liu
Z. Zhima
X. Shen
spellingShingle X. Gou
X. Gou
L. Li
L. Li
Y. Zhang
Y. Zhang
B. Zhou
B. Zhou
Y. Feng
Y. Feng
B. Cheng
B. Cheng
T. Raita
J. Liu
Z. Zhima
X. Shen
Ionospheric Pc1 waves during a storm recovery phase observed by the China Seismo-Electromagnetic Satellite
Annales Geophysicae
author_facet X. Gou
X. Gou
L. Li
L. Li
Y. Zhang
Y. Zhang
B. Zhou
B. Zhou
Y. Feng
Y. Feng
B. Cheng
B. Cheng
T. Raita
J. Liu
Z. Zhima
X. Shen
author_sort X. Gou
title Ionospheric Pc1 waves during a storm recovery phase observed by the China Seismo-Electromagnetic Satellite
title_short Ionospheric Pc1 waves during a storm recovery phase observed by the China Seismo-Electromagnetic Satellite
title_full Ionospheric Pc1 waves during a storm recovery phase observed by the China Seismo-Electromagnetic Satellite
title_fullStr Ionospheric Pc1 waves during a storm recovery phase observed by the China Seismo-Electromagnetic Satellite
title_full_unstemmed Ionospheric Pc1 waves during a storm recovery phase observed by the China Seismo-Electromagnetic Satellite
title_sort ionospheric pc1 waves during a storm recovery phase observed by the china seismo-electromagnetic satellite
publisher Copernicus Publications
series Annales Geophysicae
issn 0992-7689
1432-0576
publishDate 2020-06-01
description <p>During the storm recovery phase on 27 August 2018, the China Seismo-Electromagnetic Satellite (CSES) detected Pc1 wave activities in both the Northern Hemisphere and Southern Hemisphere in the high-latitude, post-midnight ionosphere with a central frequency of about 2&thinsp;Hz. Meanwhile, the typical Pc1 waves were simultaneously observed for several hours by the Sodankylä Geophysical Observatory (SGO) stations on the ground. In this paper, we study the propagation characteristics and possible source regions of those waves. Firstly, we find that the Pc1 waves observed by the satellites exhibited mixed polarisation, and the wave normal is almost parallel with the background magnetic field. The field-aligned Poynting fluxes point downwards in both hemispheres, implying that the satellites are close to the wave injection regions in the ionosphere at about <span class="inline-formula"><i>L</i>=3</span>. Furthermore, we also find that the estimated position of the plasmapause calculated by models is almost at <span class="inline-formula"><i>L</i>=3</span>. Therefore, we suggest that the possible sources of waves are near the plasmapause, which is consistent with previous studies in that the outward expansion of the plasmasphere into the ring current during the recovery phase of geomagnetic storms may generate electromagnetic ion cyclotron (EMIC) waves, and these EMIC waves propagate northwards and southwards along the background magnetic field to the ionosphere at about <span class="inline-formula"><i>L</i>=3</span>. Additionally, the ground station data show that Pc1 wave power attenuates with increasing distance from <span class="inline-formula"><i>L</i>=3</span>, supporting the idea that the CSES observes the wave activities near the injection region. The observations are unique in that the Pc1 waves are observed in the ionosphere in nearly conjugate regions where transverse Alfvén waves propagate down into the ionosphere.</p>
url https://angeo.copernicus.org/articles/38/775/2020/angeo-38-775-2020.pdf
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