Physics & Astronomy
ethylene
93%
dissociation
78%
reactors
72%
oxidation
70%
kinetics
57%
fuel consumption
43%
acetylene
21%
gas chromatography
12%
formaldehyde
11%
in situ measurement
10%
laser spectroscopy
10%
molecules
10%
electron impact
9%
infrared lasers
9%
hydrocarbons
9%
plasma jets
9%
absorption spectroscopy
8%
fragmentation
8%
bursts
8%
argon
7%
collisions
6%
oxygen
5%
predictions
5%
pulses
4%
ions
4%
electrons
4%
Engineering & Materials Science
Ethylene
100%
Plasmas
88%
Oxidation
84%
Temperature
38%
Fuel consumption
24%
Acetylene
23%
Electrons
17%
Molecules
17%
Addition reactions
15%
Laser spectroscopy
13%
Absorption spectroscopy
13%
Gas chromatography
10%
Formaldehyde
10%
Argon
9%
Experiments
9%
Ions
8%
Hydrocarbons
7%
Oxygen
7%
Chemical Compounds
Dissociation
68%
Flow
61%
Plasma
59%
Oxidation Reaction
43%
Fuel
35%
Electron Impact Dissociation
20%
Acetylene
19%
Mid-IR Spectroscopy
13%
Addition Reaction
10%
Collision
10%
Absorption Spectroscopy
10%
Formaldehyde
9%
Fragmentation
8%
Gas Chromatography
8%
Hydrocarbon
7%
Molecule
7%
Pressure
6%
Electron Particle
5%
Dioxygen
5%
Amount
4%
Ion
4%