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Simulation of gas dynamics and radiation in volcanic plumes on Io
J. Zhang
, D. B. Goldstein
, P. L. Varghese
, N. E. Gimelshein
, S. F. Gimelshein
,
D. A. Levin
Research output
:
Contribution to journal
›
Article
›
peer-review
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Keyphrases
Plume
100%
Gas Dynamics
100%
Gas Radiation
100%
Volcanic Plume
100%
Perovskite Light-emitting Diodes (PeLEDs)
57%
Direct Simulation Monte Carlo
28%
Vibrational Bands
28%
Column Density
28%
Shock
14%
Low Density
14%
High-resolution
14%
Spatial Resolution
14%
General Shape
14%
Surface Heating
14%
Ballistic
14%
Ring Structure
14%
Modeling Results
14%
Multi-domain
14%
Thermal Radiation
14%
Frost
14%
Negligible Effects
14%
High Altitude
14%
Line-of-sight
14%
Frost Deposition
14%
Shock Structure
14%
Whole Flow Field
14%
Rotational Lines
14%
Non-local Thermodynamic Equilibrium
14%
Infrared Emission Spectra
14%
Jupiter's Moons
14%
SO2 Plume
14%
PROMETHEE
14%
Plume Flow
14%
Radiation Signatures
14%
SO2 Molecule
14%
Multiple Bounces
14%
Plume Emission
14%
Earth and Planetary Sciences
Emissions
100%
Gas Dynamics
100%
Spatial Resolution
50%
Spatial Variation
50%
Emission Spectra
50%
Flow Distribution
50%
Line of Sight
50%
Ring Structure
50%
Local Thermodynamic Equilibrium
50%
Thermal Radiation
50%
Multidomain
50%