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Buoyancy instabilities in degenerate, collisional, magnetized plasmas
Philip Chang,
Eliot Quataert
Research output
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Contribution to journal
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Article
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peer-review
4
Scopus citations
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Dive into the research topics of 'Buoyancy instabilities in degenerate, collisional, magnetized plasmas'. Together they form a unique fingerprint.
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Keyphrases
Magnetized Plasma
100%
Buoyancy
100%
Magnetic Field Strength
66%
Temperature Gradient
66%
Neutron Stars
66%
Degenerate Plasma
66%
Magnetic Field
33%
Specific Heat
33%
High Magnetic Field
33%
Anisotropy
33%
White Dwarfs
33%
Collisionality
33%
Nonzero Temperature
33%
Growth Time
33%
Collisional Plasma
33%
Heat Conduction
33%
Electron Collision Frequency
33%
Anisotropic Heat Conduction
33%
White Dwarf Stars
33%
Electron Cyclotron Frequency
33%
Physics
Magnetic Field
100%
Field Strength
50%
Temperature Gradients
50%
Neutron Stars
50%
Conductive Heat Transfer
50%
Specific Heat
25%
Anisotropy
25%
White Dwarf
25%
Electron Scattering
25%
Zero-Temperature
25%
Cyclotron Frequency
25%
Collisional Plasmas
25%
White Dwarf Stars
25%