Performance characteristics of the ArF excimer laser using a low-pressure argon-rich mixture
- 15 November 1986
- journal article
- Published by AIP Publishing in Journal of Applied Physics
- Vol. 60 (10) , 3791-3793
- https://doi.org/10.1063/1.337547
Abstract
Low-pressure operation of an electron-beam excited ArF laser was experimentally compared to KrF lasers, both of which were pumped at high excitation rate by a 65 ns electron beam. We obtained the ArF laser energy of 95 J with an intrinsic efficiency of 3.4% from a 650 Torr Ar/F2 mixture pumped at an excitation rate of 2.3 MW/cm3. In the low-pressure region (near one atmosphere) the Ar/F2 mixture gave higher efficiency than that of Ne-buffered mixtures, and moreover gave higher efficiency than those of the KrF lasers operating with various mixtures under the same excitation rate. As a result, the ArF laser operating in this regime is found to be a better candidate than the KrF laser as an inertial confinement fusion driver.This publication has 11 references indexed in Scilit:
- ArF short-pulse extraction studiesJournal of Applied Physics, 1986
- High efficiency multikilojoule HF chemical lasers using an electron beam initiated low-pressure mixture of H2/F2/NF3 or H2/F2/SF6Applied Physics Letters, 1986
- High-efficiency multikilojoule deuterium fluoride (DF) chemical lasers initiated by intense electron beamsJournal of Applied Physics, 1986
- Kinetic Studies of the Electron-Beam-Pumped ArF Laser Using an Ne/Ar/F2 MixtureJapanese Journal of Applied Physics, 1985
- Properties of a KrF laser with atmospheric-pressure Kr-rich mixture pumped by an electron beamJournal of Applied Physics, 1985
- Atmospheric pressure operation of an electron beam excited KrF laser using Kr/F2 mixturesApplied Physics Letters, 1984
- Theoretical evaluation of electron-beam-excited KrF lasers using argon-free mixtures of one atmosphereApplied Physics Letters, 1984
- Electron-beam pumped kinetic study of ArF* (B) stateThe Journal of Chemical Physics, 1983
- 60-ns E-beam excitation of rare-gas halide lasersApplied Physics Letters, 1980
- High power uv noble-gas-halide laserfApplied Physics Letters, 1976