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248 nm laser interaction studies on LaF3/MgF2 optical coatings by cross sectional transmission electron microscopy

: Kaiser, N.; Czigany, Z.; Adamik, M.


Bennett, H.E.; Guenther, A.H.:
Laser-induced damage in optical materials 1996. Proceedings
Bellingham, Wash.: SPIE, 1997 (SPIE Proceedings Series 2966)
ISBN: 0-8194-2370-X
Symposium on Optical Materials for High-Power Lasers <28, 1996, Boulder/Colo.>
Fraunhofer IOF ()
Dünne optische Schicht; excimer laser optics; Excimer-Laser-Optik; fluoride thin films; Fluoridschicht; laser induced damage threshold; Laserzerstörschwelle; optical coating; optical thin films; oxide thin films; Oxidschicht; ultraviolet spectral region; ultravioletter Spektralbereich; UV

LaF3/MgF2 high-reflectance optical multilayer coatings were deposited by e-beam evaporation and investigated by cross-sectional transmission electron microscopy concentrating on the evolution of the film structure during growth and due to laser irradiation. The irradiated samples show enhanced texture compared to the as deposited films, indicating that recrystallization took place due to the laser irradiation. The waviness of the interfaces between the single quarter-wave sublayers in the multilayer system increases withincreasing distance from the substrate. This effect may result in increased scatter losses, especially in the ultraviolet spectral region.