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Torques Induced by Scattered Pebble-flow in Protoplanetary Disks
Pablo Benitez-Llambay
, Martin E. Pessah
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Contribution to journal
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Article
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peer-review
44
Scopus citations
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Keyphrases
Protoplanetary Disks
100%
Dust
100%
Pebble Flow
100%
Low-mass
28%
Metallicity
28%
Planetary Embryo
28%
Planetary Cores
28%
Inward Migration
28%
Dominant Role
14%
Circular Orbits
14%
Mass Ratio
14%
Density Distribution
14%
Dust Dynamics
14%
Planet Formation
14%
Hydrodynamic Simulation
14%
Giant Planets
14%
Flow Effect
14%
Formation History
14%
Population Synthesis
14%
Migration History
14%
Multi-fluid
14%
Dust Density
14%
Positive Torque
14%
Gas Mass
14%
Torque Map
14%
Drift Speed
14%
Dust Effect
14%
Dust Drift
14%
Ratio Distribution
14%
Synthesis Model
14%
INIS
torque
100%
dusts
100%
protoplanets
100%
migration
69%
planets
40%
gases
30%
embryos
30%
distribution
20%
metallicity
20%
dynamics
10%
interactions
10%
density
10%
populations
10%
synthesis
10%
simulation
10%
speed
10%
feedback
10%
maps
10%
asymmetry
10%
gravitation
10%
orbits
10%
Physics
Metallicity
100%
Protoplanetary Disk
100%
Planetary Core
100%
Circular Orbit
50%
Density Distribution
50%
Mass Ratio
50%
Planet Formation
50%
Hydrodynamical Simulations
50%
Extrasolar Gas Giants
50%
Earth and Planetary Sciences
Protoplanetary Disk
100%
Metallicity
100%
Planetary Core
100%
Planet Formation
50%
Density Distribution
50%
Mass Ratio
50%
Engineering
Density Distribution
100%
Mass Ratio
100%