Rear-surface light intensification caused by a Hertzian-conical crack in 355-nm silica optics
Author:
Publisher
IOP Publishing
Subject
General Physics and Astronomy
Link
https://iopscience.iop.org/article/10.1088/1674-1056/21/9/094213/pdf
Reference16 articles.
1. Rear-surface laser damage on 355-nm silica optics owing to Fresnel diffraction on front-surface contamination particles
2. High resolution characterization of modifications in fused silica after exposure to low fluence 355 nm laser at different repetition frequencies
3. Simulation of Light Intensification Induced by Defects of Polished Fused Silica
4. Laser Cleaning Techniques for Removing Surface Particulate Contaminants on Sol-Gel SiO 2 Films
5. Sub-surface mechanical damage distributions during grinding of fused silica
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2. Optical modulation study of repaired damage morphologies of fused silica by scalar diffraction theory;Optical Engineering;2017-01-19
3. Correlation of polishing-induced shallow subsurface damages with laser-induced gray haze damages in fused silica optics;Chinese Physics B;2016-07-26
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5. Subsurface defect characterization and laser-induced damage performance of fused silica optics polished with colloidal silica and ceria;Chinese Physics B;2016-04
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