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On the Anisotropic Nature of MRI-driven Turbulence in Astrophysical Disks
Gareth Murphy,
Martin E. Pessah
Astrophysics and Planetary Science
Niels Bohr International Academy
13
Citations (Scopus)
843
Downloads (Pure)
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Dive into the research topics of 'On the Anisotropic Nature of MRI-driven Turbulence in Astrophysical Disks'. Together they form a unique fingerprint.
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Keyphrases
Magnetorotational Instability
100%
Turbulence
100%
Astrophysical Disks
100%
Anisotropy
71%
Turbulent Flow
28%
Order of Magnitude
14%
Two-component
14%
Quasi-periodic
14%
Tensor Invariants
14%
Spectral Coding
14%
Fourier Space
14%
Temporal Analysis
14%
Angular Momentum
14%
Linear Stage
14%
3D Tensor
14%
Spectral Information
14%
Temporal Averaging
14%
Principle Theories
14%
Invariance Analysis
14%
Fourier Spectrum
14%
Fully Developed
14%
Flow Properties
14%
Degree of Anisotropy
14%
Spectral Space
14%
Pseudospectrum
14%
Turbulent Transport
14%
Engineering
Anisotropic
100%
Turbulent Flow
50%
Angular Momentum
25%
Fourier Space
25%
Linear Stage
25%
Spectral Information
25%
Spectral Code
25%
Flow Property
25%
Degree of Anisotropy
25%
Earth and Planetary Sciences
Turbulent Flow
100%
Temporal Analysis
50%
Angular Momentum
50%
Stacking
50%
Physics
Anisotropy
100%
Turbulent Flow
33%
Stacking
16%
Angular Momentum
16%
Material Science
Anisotropy
100%
Turbulent Flow
33%