Keyphrases
Numerical Modeling
100%
Order of Magnitude
100%
Stanford University
100%
Atmospheric Plasma
100%
Recombination Time
100%
Electron number Density
100%
Cm(III)
100%
Repetitively Pulsed Discharge
100%
Numerical Simulation
50%
Thermal Non-equilibrium
50%
Pulse Frequency
50%
Chemical Reaction
50%
Finite Rate
50%
Navier-Stokes Equations
50%
Reaction Rate
50%
Chemical Kinetics
50%
Channel Model
50%
Electron Temperature
50%
Density Increase
50%
Power Budget
50%
Pulse Duration
50%
Electrical Resistance
50%
Energy Relaxation
50%
Pulse Experiment
50%
Voltage Pulse
50%
Electrical Discharge
50%
Chemical Kinetic Model
50%
Electron Heating
50%
Ionization Efficiency
50%
Two-temperature
50%
Pulse Voltage
50%
Heating Strategy
50%
Discharge Model
50%
Budget Reductions
50%
Electron Density Estimation
50%
Engineering
Numerical Modeling
100%
Number Density
100%
Electron Number
100%
Internals
50%
Energy Engineering
50%
Computer Simulation
50%
Good Agreement
50%
Experimental Result
50%
Pulse Duration
50%
Channel Model
50%
Function of Time
50%
Power Budget
50%
Kinetic Model
50%
Conducted Experiment
50%
Electrical Discharge
50%
Chemical Rate
50%
Nonequilibrium
50%
Navier-Stokes Equation
50%
Initial Value
50%
Electron Temperature
50%
Ionization Efficiency
50%
Physics
Reaction Kinetics
100%
Atmospheric Plasma
100%
Navier-Stokes Equation
50%
Electric Discharges
50%
Electron Energy
50%
Electron Density
50%
Material Science
Density
100%
Carrier Concentration
50%
Electrical Resistance
50%