Skip to main navigation
Skip to search
Skip to main content
Princeton University Home
Help & FAQ
Home
Profiles
Research units
Facilities
Projects
Research output
Press/Media
Search by expertise, name or affiliation
Magnetothermal and magnetorotational instabilities in hot accretion flows
De Fu Bu, Feng Yuan,
James M. Stone
Astrophysical Sciences
Princeton Institute for Computational Science and Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
15
Scopus citations
Overview
Fingerprint
Fingerprint
Dive into the research topics of 'Magnetothermal and magnetorotational instabilities in hot accretion flows'. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Keyphrases
Magnetorotational Instability
100%
Accretion Flow
100%
Magnetothermal Properties
100%
Magnetic Field
30%
Magnetic Energy
30%
Thermal Conduction
20%
Two Dimensional
10%
Magnetohydrodynamic Simulation
10%
Angular Momentum
10%
Field Lines
10%
Radial Direction
10%
Order of Magnitude
10%
Maxwell
10%
Increased Temperature
10%
Field Stress
10%
Infall
10%
Reynolds Stress
10%
Growth Time
10%
Magnetic Field Lines
10%
Mass Accretion Rate
10%
Buoyancy
10%
Larmor Radius
10%
Global Simulation
10%
Temperature Decrease
10%
Radial Temperature Profile
10%
Electron Mean Free Path
10%
Radial Motion
10%
Engineering
Magnetic Field
100%
Magnetic Energy
100%
Two Dimensional
33%
Angular Momentum
33%
Magnetohydrodynamics
33%
Field Line
33%
Anisotropic
33%
Mean Free Path
33%
Reynolds Stress
33%
Magnetic Field Line
33%
Temperature Profile
33%
Radial Direction
33%
Physics
Magnetic Field
100%
Heat Conduction
50%
Magnetohydrodynamic Simulation
25%
Angular Momentum
25%
Mean Free Path
25%
Temperature Profile
25%
Larmor Radius
25%