Keyphrases
Tightly Coupled
100%
Non-equilibrium Model
100%
Inductively Coupled
100%
Radio Frequency Plasma
100%
Non-local Thermodynamic Equilibrium
100%
Free Electrons
50%
Operating Conditions
50%
Temperature Distribution
50%
Governing Equation
50%
Chemical Composition
50%
Electromagnetic Field
50%
Conservation Laws
50%
Excited Electronic States
50%
Chemical Composition Distribution
50%
Thermal Equilibrium State
50%
Coupled System
50%
Steady-state Solution
50%
TORCH
50%
Non-equilibrium Phenomena
50%
Hybrid State
50%
Maxwellian
50%
Heavy Particles
50%
Gas Properties
50%
Magnetohydrodynamic Model
50%
Thermochemical State
50%
Finite Volume Method
50%
Inaccurate Predictions
50%
Ohmic Heating
50%
Equilibrium Effects
50%
Thermal Non-equilibrium
50%
Non-boltzmann Distribution
50%
Multi-temperature
50%
State-to-state Approach
50%
Coupled numerical Method
50%
Macroscopic Gradients
50%
Engineering
Nonequilibrium
100%
Radio Frequency
100%
Equilibrium Model
100%
Local Thermodynamic Equilibrium
66%
Magnetic Field
33%
Numerical Methods
33%
Equilibrium Condition
33%
State Solution
33%
Combined Effect
33%
Coupled System
33%
Hydrodynamic Model
33%
Finite Volume Method
33%
Boltzmann Distribution
33%
Hybrid State
33%
Temperature Distribution
33%
Electronic State
33%
Free Electron
33%
Conservation Law
33%
Physics
Plasma Frequency
100%
Local Thermodynamic Equilibrium
100%
Steady State
50%
Electromagnetic Fields
50%
Conservation Law
50%
Mathematical Method
50%
Hydrodynamic Model
50%
Free Electron
50%
Electromagnetism
50%
Boltzmann Distribution
50%
Temperature Distribution
50%
Material Science
Chemical State
100%
Hydrodynamic Model
100%
Chemical Engineering
Temperature Distribution
100%
Joule Heating
100%