Interhemispheric comparison of spectral width boundary as observed by SuperDARN radars

Interhemispheric comparison of spectral width boundary as observed by SuperDARN radars

Previous studies have shown that dayside equatorward edge of coherent HF radar backscatter having broad Doppler spectral width is coincident with the equatorward edge of the cusp particle precipitation. This enables the boundary between broad and narrow spectral width backscatters (spectral...

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Main Authors: K. Hosokawa, E. E. Woodfield, M. Lester, S. E. Milan, N. Sato, A. S. Yukimatu, T. Iyemori
Format: Article
Language:English
Published: Copernicus Publications 2003-07-01
Series:Annales Geophysicae
Online Access:https://www.ann-geophys.net/21/1553/2003/angeo-21-1553-2003.pdf
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spelling doaj-dbaaca64a19d4bfe81b0b81653f130e62020-11-24T22:46:09ZengCopernicus PublicationsAnnales Geophysicae0992-76891432-05762003-07-01211553156510.5194/angeo-21-1553-2003Interhemispheric comparison of spectral width boundary as observed by SuperDARN radarsK. Hosokawa0E. E. Woodfield1M. Lester2S. E. Milan3N. Sato4A. S. Yukimatu5T. Iyemori6Department of Geophysics, Graduate School of Science, Kyoto University, Kyoto, JapanDepartment of Physics and Astronomy, University of Leicester, Leicester, UKDepartment of Physics and Astronomy, University of Leicester, Leicester, UKDepartment of Physics and Astronomy, University of Leicester, Leicester, UKNational Institute of Polar Research, Tokyo, JapanNational Institute of Polar Research, Tokyo, JapanData Analysis Center for Geomagnetism and Space Magnetism, Graduate School of Science, Kyoto University, Kyoto, JapanPrevious studies have shown that dayside equatorward edge of coherent HF radar backscatter having broad Doppler spectral width is coincident with the equatorward edge of the cusp particle precipitation. This enables the boundary between broad and narrow spectral width backscatters (spectral width boundary) in the dayside magnetic local time sector to be used as a proxy for the open/closed field line boundary. The present case study employs magnetically conjugate SuperDARN coherent HF radars to make an inter-hemispheric comparison of the location and variation of the spectral width boundaries. Agreement between the magnetic latitudes of the boundaries in both hemispheres is remarkable. Correlation coefficients between the latitudes of the boundaries are larger than 0.70. Temporal variation of the spectral width boundary follows the same equatorward trend in both hemispheres. This is consistent with the accumulation of open flux in the polar cap by dayside low-latitude magnetopause reconnection, expected when IMF B<sub>z</sub> is negative. Boundaries in both hemispheres also exhibit short-lived poleward motions superposed on the general equator-ward trend, which follows the onset of substorm expansion phase and a temporary northward excursion of IMF B<sub>z</sub> during substorm recovery phase. There is an interhemispheric difference in response time to the substorm occurrence between two hemispheres. The spectral width boundary in the Southern Hemisphere starts to move poleward 10 min earlier than that in the Northern Hemisphere. We discuss this difference in terms of interhemispheric asymmetry of the substorm breakup region in the longitudinal direction associated with the effect of IMF B<sub>y</sub>.<br><br><b>Key words. </b>Ionosphere (ionosphere-magnetosphere interactions; plasma convection) – Magnetospheric physics (magnetopause, cusp, boundary layers)https://www.ann-geophys.net/21/1553/2003/angeo-21-1553-2003.pdf
collection DOAJ
language English
format Article
sources DOAJ
author K. Hosokawa
E. E. Woodfield
M. Lester
S. E. Milan
N. Sato
A. S. Yukimatu
T. Iyemori
spellingShingle K. Hosokawa
E. E. Woodfield
M. Lester
S. E. Milan
N. Sato
A. S. Yukimatu
T. Iyemori
Interhemispheric comparison of spectral width boundary as observed by SuperDARN radars
Annales Geophysicae
author_facet K. Hosokawa
E. E. Woodfield
M. Lester
S. E. Milan
N. Sato
A. S. Yukimatu
T. Iyemori
author_sort K. Hosokawa
title Interhemispheric comparison of spectral width boundary as observed by SuperDARN radars
title_short Interhemispheric comparison of spectral width boundary as observed by SuperDARN radars
title_full Interhemispheric comparison of spectral width boundary as observed by SuperDARN radars
title_fullStr Interhemispheric comparison of spectral width boundary as observed by SuperDARN radars
title_full_unstemmed Interhemispheric comparison of spectral width boundary as observed by SuperDARN radars
title_sort interhemispheric comparison of spectral width boundary as observed by superdarn radars
publisher Copernicus Publications
series Annales Geophysicae
issn 0992-7689
1432-0576
publishDate 2003-07-01
description Previous studies have shown that dayside equatorward edge of coherent HF radar backscatter having broad Doppler spectral width is coincident with the equatorward edge of the cusp particle precipitation. This enables the boundary between broad and narrow spectral width backscatters (spectral width boundary) in the dayside magnetic local time sector to be used as a proxy for the open/closed field line boundary. The present case study employs magnetically conjugate SuperDARN coherent HF radars to make an inter-hemispheric comparison of the location and variation of the spectral width boundaries. Agreement between the magnetic latitudes of the boundaries in both hemispheres is remarkable. Correlation coefficients between the latitudes of the boundaries are larger than 0.70. Temporal variation of the spectral width boundary follows the same equatorward trend in both hemispheres. This is consistent with the accumulation of open flux in the polar cap by dayside low-latitude magnetopause reconnection, expected when IMF B<sub>z</sub> is negative. Boundaries in both hemispheres also exhibit short-lived poleward motions superposed on the general equator-ward trend, which follows the onset of substorm expansion phase and a temporary northward excursion of IMF B<sub>z</sub> during substorm recovery phase. There is an interhemispheric difference in response time to the substorm occurrence between two hemispheres. The spectral width boundary in the Southern Hemisphere starts to move poleward 10 min earlier than that in the Northern Hemisphere. We discuss this difference in terms of interhemispheric asymmetry of the substorm breakup region in the longitudinal direction associated with the effect of IMF B<sub>y</sub>.<br><br><b>Key words. </b>Ionosphere (ionosphere-magnetosphere interactions; plasma convection) – Magnetospheric physics (magnetopause, cusp, boundary layers)
url https://www.ann-geophys.net/21/1553/2003/angeo-21-1553-2003.pdf
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