Injection laser system for Advanced Radiographic Capability using chirped pulse amplification on the National Ignition Facility

John E. Heebner, Robert L. Acree,David A. Alessi, Adrian I. Barnes,Mark W. Bowers, Don F. Browning,Tracy S. Budge, Scott Burns, Leyen S. Chang,Kim S. Christensen,John K. Crane, Michael Dailey,Gaylen V. Erbert, Matt Fischer,Michael Flegel,Brad P. Golick,John M. Halpin,Matt Y. Hamamoto,Mark R. Hermann,Vincent J. Hernandez,John Honig,Jeffrey A. Jarboe,Daniel H. Kalantar, Vernon K. Kanz, Kenn M. Knittel, Jeremy R. Lusk,William A. Molander, Valier R. Pacheu, Mitanu Paul, Larry J. Pelz,Matthew A. Prantil,Michael C. Rushford, Nick Schenkel,Ron J. Sigurdsson,Thomas M. Spinka, Michael G. Taranowski,Paul J. Wegner, Karl C. Wilhelmsen, J. Nan Wong,Steven T. Yang

APPLIED OPTICS（2019）

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摘要

We report on the design, performance, and qualification of the injection laser system designed to deliver joule-level chirped pulse beamlets arranged in dual rectangular beam formats into two main laser amplifier beamlines of the National Ignition Facility. The system is designed to meet the requirements of the Advanced Radiographic Capability upgrade with features that deliver performance, adjustability, and long-term reliability. (C) 2019 Optical Society of America

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