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Particle stirring in turbulent gas disks: Including orbital oscillations
Andrew N. Youdin
*
,
Yoram Lithwick
*
Corresponding author for this work
Physics and Astronomy
Research output
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Article
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peer-review
453
Scopus citations
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Keyphrases
Eddies
100%
Random Velocity
100%
Stopping Time
100%
Orbital Oscillations
100%
Numerical Simulation
50%
Particle Layer
50%
Analytic Technique
50%
Diffusion Coefficient
50%
Particle Scale
50%
Solid Particles
50%
Protoplanetary Disks
50%
Orbital Dynamics
50%
Fokker-Planck Equation
50%
Height Velocity
50%
Gravitational Collapse
50%
Schmidt number
50%
Mid-plane
50%
Scale Height
50%
Particle Diffusivity
50%
Turnover Time
50%
Turbulent Diffusion
50%
Keplerian Disc
50%
Stochastic Forcing
50%
Radial Diffusion
50%
Vertical Oscillation
50%
Diffusion Velocity
50%
Epicycle
50%
Boulders
50%
Vertical Scale Height
50%
Arbitrary Ratio
50%
Engineering
Main Difference
100%
Fokker
100%
Diffusivity
100%
Turbulent Diffusion
100%
Planck Equation
100%
Diffusion Coefficient
100%
Solid Particle
100%
Schmidt Number
100%
Physics
Scale Height
100%
Protoplanetary Disk
50%
Larger Particle
50%
Diffusivity
50%
Fokker-Planck Equation
50%
Gravitational Collapse
50%
Diffusion Coefficient
50%
Radial Diffusion
50%
Turbulent Diffusion
50%
Mathematics
stopping time τ
100%
Fokker Planck Equation
50%
Stochastics
50%
Solid Particle
50%
Main Difference
50%
Schmidt Number
50%
Material Science
Diffusivity
100%
Turbulent Diffusion
50%