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Eccentricity evolution for planets in gaseous disks
Peter Goldreich
*
,
Re'em Sari
*
Corresponding author for this work
Research output
:
Contribution to journal
›
Article
›
peer-review
275
Scopus citations
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Keyphrases
Eccentricity Evolution
100%
Lindblad
100%
Eccentricity
90%
Corotation
60%
Co-orbitals
30%
Eccentricity Growth
30%
Self-gravity
20%
Density Gradient
20%
Standing Wave
20%
Planets and
20%
Giant Planets
20%
Traveling Wave
10%
Solar-type Stars
10%
First-order
10%
Long Wavelength
10%
Orbital Eccentricity
10%
Initial Eccentricity
10%
Viscous Diffusion
10%
Scale Density
10%
Libration
10%
Gap Edge
10%
Reasonable Parameters
10%
Viscous Damping
10%
Finite Amplitude
10%
Nonlinear Saturation
10%
Planet-disk Interactions
10%
Amplitude Instability
10%
Disc Height
10%
Physics
Corotation
100%
Standing Wave
33%
Extrasolar Gas Giants
33%
Traveling Wave
16%
Solar Type Star
16%
Viscous Damping
16%
Planet Disk Interaction
16%