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Magnetopause location under extreme solar wind conditions
J. H. Shue
Department of Space Science and Engineering
Research output
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Contribution to journal
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Article
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peer-review
888
Scopus citations
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Keyphrases
Solar Wind Conditions
100%
Magnetopause Location
100%
Magnetopause
75%
Geotail
75%
Magnetopause Crossings
75%
Magnetosheath
50%
Solar Wind Dynamic Pressure
50%
Saturation Effect
50%
Prediction Accuracy
25%
Interplanetary Magnetic Field
25%
Dayside
25%
Prediction Skill
25%
Subsolar
25%
Geosynchronous Satellite
25%
Geosynchronous Orbit
25%
Magnetic Clouds
25%
Nonlinear Dependence
25%
Standoff Distance
25%
Cloud Event
25%
Space Weather Forecasting
25%
Linear Extrapolation
25%
Pressure Enhancement
25%
Engineering
Dynamic Pressure
100%
Saturation Effect
100%
Magnetic Field
50%
Geosynchronous Orbit
50%
Extreme Condition
50%
Prediction Capability
50%
Linear Extrapolation
50%
Earth and Planetary Sciences
Solar Wind
100%
Magnetopause
100%
Magnetosheath
25%
Dynamic Pressure
25%
Weather Forecast
12%
Interplanetary Magnetic Field
12%
Space Weather
12%
Flaring
12%
Geosynchronous Orbit
12%
Magnetic Clouds
12%