Journal ArticleDOI
Whistler evidence of large‐scale electron‐density irregularities in the plasmasphere
C. G. Park,D. L. Carpenter +1 more
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A large-scale structure in electron density in the plasmasphere has been identified from whistlers recorded at Eights, Antarctica, near sunspot minimum The structures have dimensions of the order of an earth radius at the equator Examples of the structures include an outlying peak in equatorial electron concentration near L = 4, with peak-to-valley ratio of 2, and more than 3∶1 variations in electron concentration within 30° in longitude Once formed, the structures may be observed for several hours or more as discussed by the authors.Abstract:
Large-scale structure in electron density in the plasmasphere has been identified from whistlers recorded at Eights, Antarctica, near sunspot minimum The structures have dimensions of the order of an earth radius at the equator Examples of the structures include an outlying peak in equatorial electron concentration near L = 4, with peak-to-valley ratio of 2, and more than 3∶1 variations in electron concentration within 30° in longitude Once formed, the structures may be observed for several hours or more Detailed information on the occurrence of the irregularities is not yet available, but it is believed that they tend to develop under the influence of magnetospheric convection events The convention events tend to accentuate departure from ‘smoothness’ that originally developed through the action of ionosphere-protonosphere coupling processes and possibly through a cycle of erosion and accretion of plasma at the plasmasphere boundary in the dusk sectorread more
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Journal ArticleDOI
An ISEE/Whistler model of equatorial electron density in the magnetosphere
TL;DR: In this paper, an empirical model of equatorial electron density in the magnetosphere covering the L range 2.25-8.9043 was presented for application to the local time interval 00-15 MLT, and a way to extend the model to the 15-24 MLT period is presented.
Journal ArticleDOI
Recent satellite measurements of the morphology and dynamics of the plasmasphere
TL;DR: The morphology and dynamics of the plasmasphere vary with local time and with geomagnetic conditions as mentioned in this paper, and can be understood in terms of a time-varying convection electric-field model of the magnetosphere.
Journal ArticleDOI
On what ionospheric workers should know about the plasmapause-plasmasphere
D. L. Carpenter,C. G. Park +1 more
TL;DR: A quick reference guide to the plasmasphere can be found in this article, where a series of equatorial density profiles is shown to illustrate the reduction of plasmapause radius during brief periods of increased disturbance and the recovery of the plasosphere by various processes, particularly by filling from the underlying ionosphere.
Journal ArticleDOI
The dayside of the plasmasphere
TL;DR: The concentrations of H(+) ions in the dayside region of the plasmasphere, measured from March 1968 through February 1969 by the Lockheed light-ion mass spectrometer aboard the OGO 5 satellite, are presented and analyzed in this paper.
Journal ArticleDOI
Whistler observations of the interchange of ionization between the ionosphere and the protonosphere
TL;DR: In this article, the electron content in magnetospheric tubes of force in the range 3.5 to 5.5 was measured at Eights, Antarctica, in June 1965, and the observed rate of increase in daytime tube content gives an upward flux of ∼3×108 electrons/cm² sec across the 1000-km level, which is larger than the downward flux necessary to maintain the nocturnal ionosphere.
References
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Journal ArticleDOI
Whistler studies of the plasmapause in the magnetosphere: 1. Temporal variations in the position of the knee and some evidence on plasma motions near the knee
TL;DR: The position of the knee in the density of magnetospheric ionization was measured on a high time-resolution basis using whistlers recorded during July and part of August 1963 as discussed by the authors.
Journal ArticleDOI
Whistler studies of the plasmapause in the magnetosphere: 2. Electron density and total tube electron content near the knee in magnetospheric ionization
J. J. Angerami,D. L. Carpenter +1 more
TL;DR: In this article, a study of electron density and total electron content in tubes of force near the knee in magnetospheric ionization was made, based on whistler observations made at Eights, Antarctica, in July and August 1963, under conditions of steady, moderate geomagnetic agitation (Kp = 2-4).
Journal ArticleDOI
The morphology of the bulge region of the plasmasphere
TL;DR: Plasmasphere bulge region morphology from hydrogen ion concentration measurement by mass spectrometer on OGO 5 satellite was obtained from the OGO-5 satellite as mentioned in this paper, which was used for the measurement.
Journal ArticleDOI
Whistler evidence of the dynamic behavior of the duskside bulge in the plasmasphere
TL;DR: In this paper, the authors reviewed 180 days of whistler data for 1963 and 1965 from Eights and Byrd, Antarctica, for information on the bulge in the plasmasphere, the region of large plasmapause radius that is frequently found in the 18-21 LT sector.
Journal ArticleDOI
Whistler measurements of electron density in the magnetosphere
D. L. Carpenter,R. L. Smith +1 more
TL;DR: In this article, the whistler method of measuring electron density in the magnetosphere has been discussed and some questions that may have been perplexing to workers outside the whistlers field have been addressed.
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Whistler studies of the plasmapause in the magnetosphere: 1. Temporal variations in the position of the knee and some evidence on plasma motions near the knee
Whistler studies of the plasmapause in the magnetosphere: 2. Electron density and total tube electron content near the knee in magnetospheric ionization
J. J. Angerami,D. L. Carpenter +1 more