Keyphrases
Acetylene
33%
Argon
16%
Atomic Oxygen
16%
Burst Mode
16%
CH4 Formation
16%
Collision Reaction
16%
Collision-induced Dissociation
16%
Consumption Pathways
50%
Continuous Discharge
16%
Discharge Mode
33%
Dissociation
16%
Electron Impact Dissociation
16%
Electronically Excited Molecules
16%
Ethylene
100%
Flow Reactor
16%
Formaldehyde
16%
Fragmentation Pathway
16%
Fuel Consumption
50%
Fuel Oxidation
16%
Gas Chromatography
16%
Good Target
16%
High Temperature Oxidation
16%
Hydrocarbon Molecules
16%
In Situ Diagnostics
16%
In Situ Measurements
16%
Kinetic Mechanism
16%
Large Hydrocarbons
16%
Laser Absorption Spectroscopy
16%
Low Temperature
16%
Low Temperature Fuel
16%
Low-temperature Oxidation
16%
Methane
16%
Mid-infrared Laser
16%
Model-driven Development
16%
Nanosecond Pulsed Plasma
100%
Oxidation Mechanism
50%
Plasma-activated
100%
Plasma-assisted Combustion
16%
Pulsed Discharge Plasma
100%
Pyrolysis
50%
Pyrolysis Experiment
16%
Species Formation
100%
Time-resolved Measurement
100%
Chemistry
Absorption Spectroscopy
20%
Argon
20%
Chemistry
20%
Collisional
20%
Electron Impact Dissociation
20%
Ethylene
100%
Gas Chromatography
20%
Methane
40%
Mid-IR Spectroscopy
20%
Pyrolysis
80%
Thermooxidation
20%
Physics
Absorption Spectroscopy
20%
Ethylene
100%
In Situ Measurement
20%
Infrared Laser
20%
Methane
40%
Plasma Jet
100%
Chemical Engineering
Gas Chromatography
25%
Methane
25%
Pyrolysis
100%