Some low-altitude cusp dependencies on the interplanetary magnetic field

Newell, P T; Meng, C; Sibeck, D G; Lepping, R

doi:10.1029/JA094iA07p08921

Title: Some low-altitude cusp dependencies on the interplanetary magnetic field

Journal Article · Sat Jul 01 00:00:00 EDT 1989 · Journal of Geophysical Research; (USA)

DOI:https://doi.org/10.1029/JA094iA07p08921· OSTI ID:5397552

Newell, P T; Meng, C; Sibeck, D G ^[1]; Lepping, R ^[2]

The Johns Hopkins University Applied Physics Laboratory, Laurel, Maryland (US)
Planetary Magnetospheres Branch, Goddard Space Flight Center, Greenbelt, Maryland

Although it has become well established that the low-altitude polar cusp moves equatorward during intervals of southward interplanetary magnetic field (IMF {ital B}{sub {ital z}}{lt}0), many other important aspects of the cusp's response to IMF components are not as well investigated. An algorithm for identifying the cusp proper was applied to 12,569 high-latitude dayside passes of the DMSP F7 satellite (which is in a nearly circular polar orbit at {similar to}838 km altitude), and the resulting cusp positioning data were correlated with the IMF (IMF data were available for about 25% of the cases). It was found that the peak probability of observing the cusp shifts prenoon for {ital B}{sub {ital y}} negative (positive) in the northern (southern) hemisphere and postnoon for {ital B}{sub {ital y}} positive (negative) in the northern (southern) hemisphere. The {ital B}{sub {ital y}} induced shift is much more pronounced for southward than for northward {ital B}{sub {ital z}}, a result that appears to be consistent with elementary considerations from, for example, the antiparallel merging model. No interhemispherical latitudinal differences in cusp positions were found that could be attributed to the IMF {ital B}{sub {ital x}} component. As expected, the cusp latitudinal position correlated reasonably well (0.70) with {ital B}{sub {ital z}} when the IMF had a southward component; the previously much less investigated correlation for {ital B}{sub {ital z}} northward proved to be only 0.18, suggestive of a half-wave rectifier effect. The ratio of cusp ion number flux precipitation for {ital B}{sub {ital z}} southward to that for {ital B}{sub {ital z}} northward was 1.75{plus minus}0.12. The statistical local time (full) width of the cusp proper was found to be 2.1 hours for {ital B}{sub {ital z}} northward and 2.8 hours for {ital B}{sub {ital z}} southward. {copyright} American Geophysical Union 1989

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OSTI ID:: 5397552

Journal Information:: Journal of Geophysical Research; (USA), Vol. 94:A7; ISSN 0148-0227

Country of Publication:: United States

Language:: English

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Related Subjects

71 CLASSICAL AND QUANTUM MECHANICS
GENERAL PHYSICS
INTERPLANETARY MAGNETIC FIELDS
LATITUDE EFFECT
CORRELATIONS
EARTH MAGNETOSPHERE
POLAR CUSP
PROTON PRECIPITATION
CHARGED-PARTICLE PRECIPITATION
EARTH ATMOSPHERE
GEOGRAPHICAL VARIATIONS
MAGNETIC FIELDS
VARIATIONS
640201* - Atmospheric Physics- Auroral
Ionospheric
& Magetospheric Phenomena

Title: Some low-altitude cusp dependencies on the interplanetary magnetic field

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