An interhemispheric study of the ground magnetic and ionospheric electric fields during the substorm growth phase and expansion phase onset

T. K. Yeoman, R. V. Lewis, S. E. Milan, Masakazu Watanabe

Research output: Contribution to journalArticle

17 Citations (Scopus)

Abstract

HF radar data during equinoctial, small IMF By conditions have enabled the substorm growth phase to be studied in both hemispheres. This has revealed highly conjugate behavior during the substorm growth phase. The characteristic equatorward progression of the radar backscatter in both hemispheres is well matched by a calculation of the position of the equatorward boundary of the radar backscatter, based on an estimate of the reconnection rate at the magnetopause and the relationship between the cross polar cap potential and the change in polar cap area. Coincident radar backscatter and DMSP precipitation measurements suggest that there is a close relationship between the location of the radar backscatter and structured nightside precipitation. This nightside relationship appears to be analogous to the close relationship between radar backscatter and the targets provided by precipitation at the cusps on the dayside. The high degree of conjugacy during the growth phase mirrors the high degree of conjugacy known to exist between the substorm electrojets. However, in detail, and during the expansion phase, there are significant non-conjugacies displayed in, e.g., the degree of HF absorption in the two hemispheres. This nonconjugacy appears similar to that recently observed in interhemispheric optical data.

Original languageEnglish
Article number1999JA900164
Pages (from-to)14867-14877
Number of pages11
JournalJournal of Geophysical Research
Volume104
Issue numberA7
Publication statusPublished - 1999
Externally publishedYes

Fingerprint

radar
electric field
ionospherics
Radar
backscatter
Electric fields
hemispheres
expansion
electric fields
polar caps
precipitation measurement
Magnetopause
electrojets
magnetopause
radar data
cusps
dimethylsulfoniopropionate
electrojet
progressions
IMF

All Science Journal Classification (ASJC) codes

  • Geochemistry and Petrology
  • Geophysics
  • Earth and Planetary Sciences (miscellaneous)
  • Space and Planetary Science
  • Atmospheric Science
  • Astronomy and Astrophysics
  • Oceanography

Cite this

An interhemispheric study of the ground magnetic and ionospheric electric fields during the substorm growth phase and expansion phase onset. / Yeoman, T. K.; Lewis, R. V.; Milan, S. E.; Watanabe, Masakazu.

In: Journal of Geophysical Research, Vol. 104, No. A7, 1999JA900164, 1999, p. 14867-14877.

Research output: Contribution to journalArticle

@article{20f74d7630a845bd8c3e22ed754206b4,
title = "An interhemispheric study of the ground magnetic and ionospheric electric fields during the substorm growth phase and expansion phase onset",
abstract = "HF radar data during equinoctial, small IMF By conditions have enabled the substorm growth phase to be studied in both hemispheres. This has revealed highly conjugate behavior during the substorm growth phase. The characteristic equatorward progression of the radar backscatter in both hemispheres is well matched by a calculation of the position of the equatorward boundary of the radar backscatter, based on an estimate of the reconnection rate at the magnetopause and the relationship between the cross polar cap potential and the change in polar cap area. Coincident radar backscatter and DMSP precipitation measurements suggest that there is a close relationship between the location of the radar backscatter and structured nightside precipitation. This nightside relationship appears to be analogous to the close relationship between radar backscatter and the targets provided by precipitation at the cusps on the dayside. The high degree of conjugacy during the growth phase mirrors the high degree of conjugacy known to exist between the substorm electrojets. However, in detail, and during the expansion phase, there are significant non-conjugacies displayed in, e.g., the degree of HF absorption in the two hemispheres. This nonconjugacy appears similar to that recently observed in interhemispheric optical data.",
author = "Yeoman, {T. K.} and Lewis, {R. V.} and Milan, {S. E.} and Masakazu Watanabe",
year = "1999",
language = "English",
volume = "104",
pages = "14867--14877",
journal = "Journal of Geophysical Research",
issn = "0148-0227",
publisher = "American Geophysical Union",
number = "A7",

}

TY - JOUR

T1 - An interhemispheric study of the ground magnetic and ionospheric electric fields during the substorm growth phase and expansion phase onset

AU - Yeoman, T. K.

AU - Lewis, R. V.

AU - Milan, S. E.

AU - Watanabe, Masakazu

PY - 1999

Y1 - 1999

N2 - HF radar data during equinoctial, small IMF By conditions have enabled the substorm growth phase to be studied in both hemispheres. This has revealed highly conjugate behavior during the substorm growth phase. The characteristic equatorward progression of the radar backscatter in both hemispheres is well matched by a calculation of the position of the equatorward boundary of the radar backscatter, based on an estimate of the reconnection rate at the magnetopause and the relationship between the cross polar cap potential and the change in polar cap area. Coincident radar backscatter and DMSP precipitation measurements suggest that there is a close relationship between the location of the radar backscatter and structured nightside precipitation. This nightside relationship appears to be analogous to the close relationship between radar backscatter and the targets provided by precipitation at the cusps on the dayside. The high degree of conjugacy during the growth phase mirrors the high degree of conjugacy known to exist between the substorm electrojets. However, in detail, and during the expansion phase, there are significant non-conjugacies displayed in, e.g., the degree of HF absorption in the two hemispheres. This nonconjugacy appears similar to that recently observed in interhemispheric optical data.

AB - HF radar data during equinoctial, small IMF By conditions have enabled the substorm growth phase to be studied in both hemispheres. This has revealed highly conjugate behavior during the substorm growth phase. The characteristic equatorward progression of the radar backscatter in both hemispheres is well matched by a calculation of the position of the equatorward boundary of the radar backscatter, based on an estimate of the reconnection rate at the magnetopause and the relationship between the cross polar cap potential and the change in polar cap area. Coincident radar backscatter and DMSP precipitation measurements suggest that there is a close relationship between the location of the radar backscatter and structured nightside precipitation. This nightside relationship appears to be analogous to the close relationship between radar backscatter and the targets provided by precipitation at the cusps on the dayside. The high degree of conjugacy during the growth phase mirrors the high degree of conjugacy known to exist between the substorm electrojets. However, in detail, and during the expansion phase, there are significant non-conjugacies displayed in, e.g., the degree of HF absorption in the two hemispheres. This nonconjugacy appears similar to that recently observed in interhemispheric optical data.

UR - http://www.scopus.com/inward/record.url?scp=0008550301&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=0008550301&partnerID=8YFLogxK

M3 - Article

AN - SCOPUS:0008550301

VL - 104

SP - 14867

EP - 14877

JO - Journal of Geophysical Research

JF - Journal of Geophysical Research

SN - 0148-0227

IS - A7

M1 - 1999JA900164

ER -