TY - JOUR
T1 - Theoretical studies of output performance dependence on excitation rate for electron-beam excited KrF laser
AU - Kannari, F.
AU - Obara, M.
AU - Fujioka, T.
PY - 1982
Y1 - 1982
N2 - We have developed a comprehensive computer code to analyze output performance of KrF laser excited by an intense electron beam. Especially for short pulse (<100 ns) and high excitation rate (≳1 MW/cm3) pumping, and under realizable conditions, we have calculated the intrinsic laser efficiency as a function of excitation rate. The results were compared with some experimental results which have been already reported by other groups, and a fairly good agreement was obtained. At an excitation rate of 1.5-2 MW/cm 3, and at a total gas pressure of near 1.5-2 atm, an intrinsic efficiency of up to 11.5% is found to be attainable. At 3-4 atm, even at an excitation rate of near 7 MW/cm3, the efficiency of 9% is obtainable. We have also calculated the KrF* production efficiency and the laser extraction efficiency, and explained the output performance in terms of excitation rate.
AB - We have developed a comprehensive computer code to analyze output performance of KrF laser excited by an intense electron beam. Especially for short pulse (<100 ns) and high excitation rate (≳1 MW/cm3) pumping, and under realizable conditions, we have calculated the intrinsic laser efficiency as a function of excitation rate. The results were compared with some experimental results which have been already reported by other groups, and a fairly good agreement was obtained. At an excitation rate of 1.5-2 MW/cm 3, and at a total gas pressure of near 1.5-2 atm, an intrinsic efficiency of up to 11.5% is found to be attainable. At 3-4 atm, even at an excitation rate of near 7 MW/cm3, the efficiency of 9% is obtainable. We have also calculated the KrF* production efficiency and the laser extraction efficiency, and explained the output performance in terms of excitation rate.
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U2 - 10.1063/1.331588
DO - 10.1063/1.331588
M3 - Article
AN - SCOPUS:0019895866
SN - 0021-8979
VL - 53
SP - 135
EP - 142
JO - Journal of Applied Physics
JF - Journal of Applied Physics
IS - 1
ER -