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Three-dimensional, time-dependent, MHD model of a solar flare-generated interplanetary shock waveA three-dimensional time-dependent MHD model of the propagation of an interplanetary shock wave into an ambient three-dimensional heliospheric solar wind is initialized with a peak velocity of 1000 km/s at the center of a right circular cone of 18 deg included angle at 18 solar radii. Differences from a previous 2-1/2 simulation (Wu et al., 1983; Gislason et al., 1984; Dryer et al., 1984) include diminuation of the solar peak velocity and concentration of the peak density at each radius. The IMF magnitude starts with high-latitude peaks, and helical-like IMF rotation is noted due to a large-amplitude nonlinear Alfven wave in the shocked plasma.
Document ID
19870025943
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Dryer, M. (NOAA, Space Environment Laboratory, Boulder CO, United States)
Wu, S. T. (Alabama, University Huntsville, United States)
Han, S. M. (Tennessee Technological University Cookeville, United States)
Date Acquired
August 13, 2013
Publication Date
January 1, 1986
Subject Category
Solar Physics
Accession Number
87A13217
Funding Number(s)
OTHER: NOAA-84RAC05132
PROJECT: AF PROJECT ESD5-618
CONTRACT_GRANT: NASA ORDER W-15361
OTHER: NOAA-NA-84RAA05519
CONTRACT_GRANT: NAGW-9
Distribution Limits
Public
Copyright
Other

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