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The influence of radio-frequency discharge geometry on O
2
(a
1
Δ) production
B. S. Woodard
, M. T. Day
, J. W. Zimmerman
, G. F. Benavides
, A. D. Palla
, D. L. Carroll
, J. T. Verdeyen
, W. C. Solomon
Grainger College of Engineering
Aerospace Engineering
Research output
:
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peer-review
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Dive into the research topics of 'The influence of radio-frequency discharge geometry on O
2
(a
1
Δ) production'. Together they form a unique fingerprint.
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Keyphrases
Laser System
100%
Radio-frequency Discharge
100%
High Pressure
50%
Continuous-wave Laser
50%
Gas Mixture
50%
Rectangular Cross-section
50%
High Power Laser
50%
Electrode Gap
50%
Atomic Iodine
50%
Circular Tube
50%
NO Gas
50%
Electric Oxygen Iodine Laser
50%
Engineering
Radio Frequency
100%
Laser System
100%
Continuous Wave
50%
Rectangular Cross Section
50%
Laser Power
50%
Circular Tubes
50%
Electrode Gap
50%
Gas Mixture
50%
Physics
Radio Frequency Discharge
100%
Continuous Wave Laser
50%
High Power Lasers
50%
Gas Mixture
50%
Iodine Laser
50%
Gas Discharge Tubes
50%