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Wind-driven accretion in protoplanetary disks. I. Suppression of the magnetorotational instability and launching of the magnetocentrifugal wind
Xue Ning Bai,
James McLellan Stone
Astrophysical Sciences
Princeton Institute for Computational Science and Engineering
Research output
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Article
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peer-review
324
Scopus citations
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Dive into the research topics of 'Wind-driven accretion in protoplanetary disks. I. Suppression of the magnetorotational instability and launching of the magnetocentrifugal wind'. Together they form a unique fingerprint.
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Physics & Astronomy
protoplanetary disks
100%
launching
96%
ambipolar diffusion
64%
retarding
61%
magnetic diffusion
24%
ionization
22%
electrical resistivity
20%
shearing
16%
laminar flow
16%
radial velocity
16%
boxes
15%
planets
14%
magnetic flux
14%
chemistry
13%
angular momentum
13%
penetration
13%
diffusion coefficient
13%
inclusions
12%
turbulence
12%
radii
9%
acoustics
9%
geometry
9%
configurations
8%
magnetic fields
8%
simulation
6%
Earth & Environmental Sciences
accretion
75%
ionization
31%
electrical resistivity
27%
toroidal field
26%
angular momentum
19%
laminar flow
17%
planet
14%
magnetic field
14%
penetration
13%
sound
13%
plasma
12%
turbulence
12%
geometry
10%
speed
10%
simulation
7%
rate
5%
effect
3%