Experimental study on an all gas-phase iodine laser using microwave discharge of Cl_2/He as a Cl atoms source
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The Optical Society
Reference24 articles.
1. The measurement of gain on the 1.315 μm transition of atomic iodine in a subsonic flow of chemically generated NCl(a1Δ)
2. A new energy transfer chemical laser at 1.315 μm
3. A multiwatt all gas-phase iodine laser (AGIL)
4. Rates of reactions of azide radical with fluorine, chlorine, bromine, and hydrogen atoms
5. Kinetics of NCl(aΔ and b1Σ+) Generation: The Cl + N3 Rate Constant, the NCl(a1Δ) Product Branching Fraction, and Quenching of NCl(a1Δ) by F and Cl Atoms
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1. Experimental study on supersonic all gas-phase iodine laser driven by NF3/D2/DCl/CF3I combustion;XIX International Symposium on High-Power Laser Systems and Applications 2012;2013-01-30
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