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Hot-jupiter inflation due to deep energy deposition
Sivan Ginzburg
,
Re'Em Sari
Racah Institute of Physics
Research output
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Contribution to journal
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Article
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peer-review
39
Scopus citations
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Keyphrases
Inflation
100%
Hot Jupiters
100%
Deep Energy Levels
100%
Energy Deposition
100%
Optical Depth
75%
Scaling Laws
50%
Power Source
50%
Isothermal Layer
50%
Shock
25%
Power-law Index
25%
Closed Orbits
25%
Analytical Model
25%
Energy Density
25%
Radiative Energy
25%
Cooling Rate
25%
Irradiation
25%
Additional Power
25%
Gas Giants
25%
Numerical Work
25%
Intuitive Thinking
25%
Tidal Dissipation
25%
Extrasolar
25%
Effective Power
25%
Giant Planets
25%
Simple Analytical Model
25%
Ohmic Dissipation
25%
Internally Heated
25%
Convective Cooling
25%
Central Temperature
25%
Main Trends
25%
Convective Layer
25%
Engineering
Energy Engineering
100%
Convective
100%
Scaling Law
50%
Power Source
50%
Isothermal
50%
Analytical Model
50%
Energy Density
25%
Cooling Rate
25%
Extreme Case
25%
Power Law Index
25%
Effective Power
25%
Physics
Hot Jupiters
100%
Isothermal Layer
50%
Flux Density
25%
Extrasolar Gas Giants
25%