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Formation and evolution of protostellar accretion discs - I. Angular-momentum budget, gravitational self-regulation, and numerical convergence
Wenrui Xu,
Matthew W. Kunz
Astrophysical Sciences
Princeton Institute for Computational Science and Engineering
Research output
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Contribution to journal
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Article
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peer-review
19
Scopus citations
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Dive into the research topics of 'Formation and evolution of protostellar accretion discs - I. Angular-momentum budget, gravitational self-regulation, and numerical convergence'. Together they form a unique fingerprint.
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Earth & Environmental Sciences
angular momentum
100%
accretion
75%
budget
68%
regulation
56%
hydrostatics
51%
magnetic field
28%
magnetohydrodynamics
21%
gas
16%
contraction
15%
dissipation
14%
outflow
14%
material
13%
boundary condition
12%
removal
8%
cost
8%
simulation
7%
Physics & Astronomy
budgets
86%
accretion disks
83%
angular momentum
66%
protostars
50%
hydrostatics
26%
gravitational instability
21%
ambipolar diffusion
21%
braking
20%
ohmic dissipation
12%
magnetic disks
11%
magnetohydrodynamic simulation
10%
neutral gases
9%
magnetic fields
8%
contraction
7%
costs
6%
boundary conditions
5%
estimates
4%
gases
4%