Keyphrases
In Situ
100%
Ignition
100%
Low-temperature Chemistry
100%
Helium Mixtures
100%
Plasma-activated
100%
Dimethyl Ether
100%
S-curve
100%
Ether Oxygen
100%
Mole Fraction
83%
Low Temperature
33%
Formaldehyde
33%
Radical Production
33%
Planar Laser-induced Fluorescence
33%
Diffusion Flame
16%
Oxidizer
16%
Chemical Kinetics
16%
Thermally Activated Processes
16%
Short Time Scale
16%
Ignition Characteristics
16%
Fluorescence Intensity
16%
Burner
16%
Low-temperature Reactivity
16%
Chemical Kinetic Model
16%
Counterflow Burner
16%
Non-equilibrium Plasma
16%
Kinetic Pathways
16%
High-temperature Kinetics
16%
Constant Electric Field
16%
Nozzle
16%
Electric Field Strength
16%
Repetition Rate
16%
Nanosecond Discharge
16%
Plasma Activation
16%
Reaction Path Analysis
16%
He Diffusion
16%
Extinction Characteristics
16%
Smooth Transition
16%
High-temperature Chemistry
16%
Nozzle Exit
16%
Uniform Discharge
16%
Porous Metal Electrode
16%
Constant Strain Rate
16%
Plasma Region
16%
Dimethyl Ether Oxidation
16%
Repetition Frequency
16%
Physics
Laser Induced Fluorescence
100%
Reaction Kinetics
100%
Electric Fields
50%
Field Strength
50%
Nonequilibrium plasmas
50%
Strain Rate
50%
Diffusion Flame
50%
Chemistry
Chemistry
100%
Helium
100%
Dimethyl Ether
100%
Chemical Kinetics Characteristics
42%
Laser Induced Fluorescence Spectroscopy
28%
Fluorescence Intensity
14%
Electric Field
14%
Nonequilibrium
14%
Diffusion Flame
14%
Porosity
14%
Engineering
Low-Temperature
100%
Ignition
77%
Mole Fraction
55%
Torr
22%
Planar Laser-Induced Fluorescence
22%
Diffusion Flame
11%
Oxidizer
11%
Strain Rate
11%
Nonequilibrium
11%
Kinetic Model
11%
Repetition Frequency
11%
Nanosecond
11%
Electric Field Strength
11%
Repetition Rate
11%
Plasma Activation
11%
Constant Electric Field
11%
Porous Metal
11%
Nozzle Exit
11%
Fluorescence Intensity
11%