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ON VERTICALLY GLOBAL, HORIZONTALLY LOCAL MODELS FOR ASTROPHYSICAL DISKS
Colin P. McNally,
Martin E. Pessah
Astrophysics and Planetary Science
Niels Bohr International Academy
9
Citations (Scopus)
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Dive into the research topics of 'ON VERTICALLY GLOBAL, HORIZONTALLY LOCAL MODELS FOR ASTROPHYSICAL DISKS'. Together they form a unique fingerprint.
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Keyphrases
Local Model
100%
Astrophysical Disks
100%
Periodic Boundary Conditions
75%
Barotropic
75%
Non-axisymmetric
25%
Gravitational Potential
25%
Shear Rate
25%
Magnetorotational Instability
25%
Vertical Shear
25%
Frequency Rate
25%
Smaller Discs
25%
Equilibrium Structure
25%
Horizontal Plane
25%
Magnetohydrodynamics
25%
Disc Model
25%
Explicit Formula
25%
Shear Instability
25%
Approximate Model
25%
Engineering
Angular Frequency
100%
Local Model
100%
Boundary Condition
75%
Periodic Boundary
75%
Axisymmetric
50%
Shear Rate
25%
Magnetohydrodynamics
25%
Limitations
25%
Shear Instability
25%
Horizontal Plane
25%
Illustrates
25%
Earth and Planetary Sciences
Boundary Condition
100%
Gravitational Field
33%
Magnetohydrodynamics
33%
Physics
Periodic Boundary Condition
100%
Magnetohydrodynamics
33%
Gravitational Field
33%