![]() Laser glass fracture and cooling scalability in high average power gas-cooled laser amplifiers were studied by in-situ optical probing of laser glass during actual fracture events under realistic thermal load conditions.Authors: Emily Sistrunk Link, Lawrence Livermore National Laboratory / Frantisek Batysta, Lawrence Livermore National Laboratory / Jared Benge, Lawrence Livermore National Laboratory / Francisco Cebreros, Lawrence Livermore National Laboratory / Andrew Church, Lawrence Livermore National Laboratory / Justin Galbraith, Lawrence Livermore National Laboratory / Thomas Galvin, Lawrence Livermore National Laboratory / Michael Keebaugh, Lawrence Livermore National Laboratory / Edward Koh, Lawrence Livermore National Laboratory / Rotem Kupfer, Lawrence Livermore National Laboratory / Edward Lowell, Lawrence Livermore National Laboratory / William Maranville, Lawrence Livermore National Laboratory / Scott Mitchell, Lawrence Livermore National Laboratory / John Peterson, Lawrence Livermore National Laboratory / Brendan Reagan, Lawrence Livermore National Laboratory / Laura Sawyer, Lawrence Livermore National Laboratory / Kathleen Schaffers, Lawrence Livermore National Laboratory / Issa Tamer, Lawrence Livermore National Laboratory / Drew Willard, Lawrence Livermore National Laboratory / Thomas Spinka, Lawrence Livermore National Laboratory
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