Physics & Astronomy
chemical oxygen-iodine lasers
100%
alkalies
45%
diodes
35%
lasers
34%
iodine
31%
gases
25%
dissociation
21%
computational fluid dynamics
21%
pumps
20%
flow velocity
19%
transonic flow
19%
lasing
17%
buffers
16%
charge flow devices
16%
generators
14%
chemical lasers
14%
fluid dynamics
13%
supersonic nozzles
13%
resonators
12%
injection
10%
output
9%
pumping
9%
laser beams
8%
kinetics
8%
oxygen
8%
gas flow
8%
dynamic models
7%
temperature
7%
nozzles
7%
population inversion
6%
slits
6%
water vapor
6%
cesium
5%
atoms
5%
cesium vapor
5%
ejectors
5%
Engineering & Materials Science
Chemical oxygen iodine lasers
97%
Iodine
68%
Resonators
51%
Lasers
37%
Nozzles
25%
Diodes
24%
Gases
22%
Flow rate
17%
Molecules
15%
Computational fluid dynamics
15%
Chemical lasers
13%
Pumps
12%
Beam quality
11%
Temperature
10%
Oxygen
9%
Laser beams
9%
Pumping (laser)
9%
Flow of gases
7%
Fluid dynamics
7%
Atoms
6%
Cesium
6%
Water vapor
6%
Ionization
5%
Spatial distribution
5%
Mathematics
Laser
44%
Gas
34%
Pump
29%
Modeling
20%
Beam Quality
20%
Computational Fluid Dynamics
17%
Laser Beam
15%
Buffer
14%
Resonator
13%
Experimental Results
12%
Nozzle
11%
Transverse
10%
Chemical Laser
10%
Fluid Dynamics
9%
Ionization
9%
Model
9%
Dynamic Modeling
8%
Experimental Study
8%
Kinetics
8%
Electron
7%
Output
7%
Analytical Model
7%
Beam Propagation
6%
Dynamic Process
6%
Injection
6%
Experiment
6%
Generator
5%
Dynamic Simulation
5%
Flow Rate
5%
Three-dimensional
5%
Methane
5%
Diode-pumped Lasers
5%