A case study based on ground observations of the conjugate ionospheric response to interplanetary shock in polar regions

Data acquired by imaging relative ionospheric opacity meters (riometers), ionospheric total electron content (TEC) monitors, and three-wavelength auroral imagers at the conjugate Zhongshan station (ZHS) in Antarctica and Yellow River station (YRS) in the Arctic were analyzed to investigate the respo...

Full description

Bibliographic Details
Main Authors: Fang, He, Zejun, Hu, Hongqiao, Hu, Dehong, Huang, Yao, Yu
Format: Article in Journal/Newspaper
Language:English
Published: Polar Research Institute of China - PRIC 2021
Subjects:
Atmosphere
Space
Arctic
Antarctic
The Antarctic
Zhongshan
Zhongshan Station
Advances in Polar Science
Antarc*
Antarctica
polar night
Polar Science
Online Access:http://library.arcticportal.org/2751/
http://library.arcticportal.org/2751/1/A2102006.pdf
id ftarcticportal:oai:generic.eprints.org:2751
record_format openpolar
spelling ftarcticportal:oai:generic.eprints.org:2751 2023-12-10T09:39:02+01:00 A case study based on ground observations of the conjugate ionospheric response to interplanetary shock in polar regions Fang, He Zejun, Hu Hongqiao, Hu Dehong, Huang Yao, Yu 2021-06 application/pdf http://library.arcticportal.org/2751/ http://library.arcticportal.org/2751/1/A2102006.pdf en eng Polar Research Institute of China - PRIC http://library.arcticportal.org/2751/1/A2102006.pdf Fang, He and Zejun, Hu and Hongqiao, Hu and Dehong, Huang and Yao, Yu (2021) A case study based on ground observations of the conjugate ionospheric response to interplanetary shock in polar regions. Advances in Polar Science, 32 (2). pp. 141-160. Atmosphere Space Article PeerReviewed 2021 ftarcticportal 2023-11-15T23:54:41Z Data acquired by imaging relative ionospheric opacity meters (riometers), ionospheric total electron content (TEC) monitors, and three-wavelength auroral imagers at the conjugate Zhongshan station (ZHS) in Antarctica and Yellow River station (YRS) in the Arctic were analyzed to investigate the response of the polar ionosphere to an interplanetary shock event induced by solar flare activity on July 12, 2012. After the arrival of the interplanetary shock wave at the magnetosphere at approximately 18:10 UT, significantly enhanced auroral activity was observed by the auroral imagers at the ZHS. Additionally, the polar conjugate observation stations in both hemispheres recorded notable evolution in the two-dimensional movement of cosmic noise absorption. Comparison of the ionospheric TEC data acquired by the conjugate pair showed that the TEC at both sites increased considerably after the interplanetary shock wave arrived, although the two stations featured different sunlight conditions (polar night in July in the Antarctic region and polar day in the Arctic region). However, the high-frequency (HF) coherent radar data demonstrated that different sources might be responsible for the electron density enhancement in the ionosphere. During the Arctic polar day period in July, the increased electron density over YRS might have been caused by anti-sunward convection of the plasma irregularity, whereas in Antarctica during the polar night, the increased electron density over ZHS might have been caused by energetic particle precipitation from the magnetotail. These different physical processes might be responsible for the different responses of the ionosphere at the two conjugate stations in response to the same interplanetary shock event. Article in Journal/Newspaper Advances in Polar Science Antarc* Antarctic Antarctica Arctic polar night Polar Science Polar Science Arctic Portal Library Arctic Antarctic The Antarctic Zhongshan ENVELOPE(76.371,76.371,-69.373,-69.373) Zhongshan Station ENVELOPE(76.371,76.371,-69.373,-69.373)
institution Open Polar
collection Arctic Portal Library
op_collection_id ftarcticportal
language English
topic Atmosphere
Space
spellingShingle Atmosphere
Space
Fang, He
Zejun, Hu
Hongqiao, Hu
Dehong, Huang
Yao, Yu
A case study based on ground observations of the conjugate ionospheric response to interplanetary shock in polar regions
topic_facet Atmosphere
Space
description Data acquired by imaging relative ionospheric opacity meters (riometers), ionospheric total electron content (TEC) monitors, and three-wavelength auroral imagers at the conjugate Zhongshan station (ZHS) in Antarctica and Yellow River station (YRS) in the Arctic were analyzed to investigate the response of the polar ionosphere to an interplanetary shock event induced by solar flare activity on July 12, 2012. After the arrival of the interplanetary shock wave at the magnetosphere at approximately 18:10 UT, significantly enhanced auroral activity was observed by the auroral imagers at the ZHS. Additionally, the polar conjugate observation stations in both hemispheres recorded notable evolution in the two-dimensional movement of cosmic noise absorption. Comparison of the ionospheric TEC data acquired by the conjugate pair showed that the TEC at both sites increased considerably after the interplanetary shock wave arrived, although the two stations featured different sunlight conditions (polar night in July in the Antarctic region and polar day in the Arctic region). However, the high-frequency (HF) coherent radar data demonstrated that different sources might be responsible for the electron density enhancement in the ionosphere. During the Arctic polar day period in July, the increased electron density over YRS might have been caused by anti-sunward convection of the plasma irregularity, whereas in Antarctica during the polar night, the increased electron density over ZHS might have been caused by energetic particle precipitation from the magnetotail. These different physical processes might be responsible for the different responses of the ionosphere at the two conjugate stations in response to the same interplanetary shock event.
format Article in Journal/Newspaper
author Fang, He
Zejun, Hu
Hongqiao, Hu
Dehong, Huang
Yao, Yu
author_facet Fang, He
Zejun, Hu
Hongqiao, Hu
Dehong, Huang
Yao, Yu
author_sort Fang, He
title A case study based on ground observations of the conjugate ionospheric response to interplanetary shock in polar regions
title_short A case study based on ground observations of the conjugate ionospheric response to interplanetary shock in polar regions
title_full A case study based on ground observations of the conjugate ionospheric response to interplanetary shock in polar regions
title_fullStr A case study based on ground observations of the conjugate ionospheric response to interplanetary shock in polar regions
title_full_unstemmed A case study based on ground observations of the conjugate ionospheric response to interplanetary shock in polar regions
title_sort case study based on ground observations of the conjugate ionospheric response to interplanetary shock in polar regions
publisher Polar Research Institute of China - PRIC
publishDate 2021
url http://library.arcticportal.org/2751/
http://library.arcticportal.org/2751/1/A2102006.pdf
long_lat ENVELOPE(76.371,76.371,-69.373,-69.373)
ENVELOPE(76.371,76.371,-69.373,-69.373)
geographic Arctic
Antarctic
The Antarctic
Zhongshan
Zhongshan Station
geographic_facet Arctic
Antarctic
The Antarctic
Zhongshan
Zhongshan Station
genre Advances in Polar Science
Antarc*
Antarctic
Antarctica
Arctic
polar night
Polar Science
Polar Science
genre_facet Advances in Polar Science
Antarc*
Antarctic
Antarctica
Arctic
polar night
Polar Science
Polar Science
op_relation http://library.arcticportal.org/2751/1/A2102006.pdf
Fang, He and Zejun, Hu and Hongqiao, Hu and Dehong, Huang and Yao, Yu (2021) A case study based on ground observations of the conjugate ionospheric response to interplanetary shock in polar regions. Advances in Polar Science, 32 (2). pp. 141-160.
_version_ 1784893835842682880

Similar Items