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Ion dynamics and the magnetorotational instability in weakly ionized discs
B. P. Pandey
*
,
Mark Wardle
*
Corresponding author for this work
Research output
:
Contribution to journal
›
Article
›
peer-review
13
Citations (Scopus)
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Physics & Astronomy
conductivity
81%
inertia
72%
ions
68%
cataclysmic variables
63%
tensors
55%
angular momentum
40%
rotating plasmas
35%
companion stars
33%
ambipolar diffusion
32%
protoplanetary disks
30%
causes
29%
main sequence stars
29%
mass flow
29%
accretion disks
25%
magnetohydrodynamics
24%
time dependence
23%
inclusions
19%
ionization
17%
magnetic fields
12%
electrons
10%
Earth & Environmental Sciences
conductivity
100%
ion
93%
inertia
76%
angular momentum
60%
magnetohydrodynamics
32%
ionization
24%
accretion
22%
magnetic field
21%
plasma
19%
electron
17%
effect
11%
parameter
8%