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Capture and induced disk accretion in young star encounters
Eve Charis Ostriker
Astrophysical Sciences
Princeton Center for Theoretical Science (PCTS)
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
88
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Keyphrases
Angular Velocity
100%
Analytic Results
100%
Angular Momentum Transfer
100%
Energy Change
100%
Energy-momentum
100%
Young Stars
100%
Disk Energy
100%
Capture Probability
100%
Parabolic Orbits
100%
Disk Accretion
100%
Angular Momentum
50%
Density Wave
50%
Two-body
50%
Power Law
50%
Prograde
50%
Stellar Clusters
50%
Numerical Evaluation
50%
Disc Height
50%
Accretion Rate
50%
Cluster Parameters
50%
Open Clusters
50%
Circumstellar Disks
50%
Tidal Force
50%
Bending Wave
50%
Coplanar
50%
Orientation Energy
50%
Resonant Transfer Excitation
50%
Star-star
50%
Capture Rate
50%
Linear Perturbation Theory
50%
Galaxy Encounters
50%
Galaxies-galaxies
50%
Angular Momentum Exchange
50%
Physics
Angular Momentum
100%
Circumstellar Disks
100%
Momentum Transfer
50%
Angular Velocity
50%
Parabolic Orbit
50%
Probability Theory
50%
Disk Stars
25%
Perturbation Theory
25%
Periastron
25%
Open Cluster
25%
Galaxy Encounters
25%
Two Body Problem
25%