20 September 2004 Improving discharge-initiated HF/DF lasers using chain reaction
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Proceedings Volume 5448, High-Power Laser Ablation V; (2004); doi: 10.1117/12.546719
Event: High-Power Laser Ablation, 2004, Taos, New Mexico, United States
Abstract
A few years ago, it has been demonstrated that the use of hydrocarbons such as C2H4 or C6H12 as hydrogen donor allows realizing high-volume discharges in SF6 based non-chain HF/DF gas mixture. However, for some uses, the specific output energy, the efficiency and, to a less extent, the optical quality of all these lasers remain insufficient. It appears now that the only way to increase these values is to use chain reaction. But chain reaction is known to be delicate to control, especially when working at high repetition rate. This paper will describe recent work directed towards a better understanding of the discharge mechanisms and an increase of the efficiency and of the specific output energy of HF/DF pulsed lasers by using chain reaction in discharge initiated repetitive and non-repetitive experiments. High volume discharge cells compatible with repetition rate have been realized. Discharge initiated repetitive chain reaction has been studied up to 10Hz with large gap. Efficiencies as high as 70% have been obtained in single pulse experiments. Computer modeling allows now predicting satisfactorily the performances of discharge-initiated chain reaction HF/DF lasers as a function of electric circuit characteristics and gas composition.
© (2004) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
Bernard Lacour, Vincent Puech, Boris Sergievitch Alexandrov, Constantin Alexandrovitch Kutumov, Evgueni Alexandrovitch Klimuk, Georgyi Andreievitch Troschinenko, "Improving discharge-initiated HF/DF lasers using chain reaction", Proc. SPIE 5448, High-Power Laser Ablation V, (20 September 2004); doi: 10.1117/12.546719; https://doi.org/10.1117/12.546719
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KEYWORDS
Pulsed laser operation

Energy efficiency

Computer simulations

Electrodes

Fluorine

Capacitors

Electrical efficiency

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