Fused silica optics damage from downstream intensification on
laser-induced damage precursors

Isaac Bass; Jim Vickers; Gabe Guss; Mary Norton; David Cross; Christopher Wren Carr; Eyal Feigenbaum

doi:10.1364/AO.442843

Applied Optics
Vol. 60,
Issue 36,
pp. 11084-11093
(2021)
•https://doi.org/10.1364/AO.442843

Fused silica optics damage from downstream intensification on laser-induced damage precursors

Isaac Bass, Jim Vickers, Gabe Guss, Mary Norton, David Cross, Christopher Wren Carr, and Eyal Feigenbaum

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Isaac Bass, Jim Vickers, Gabe Guss, Mary Norton, David Cross, Christopher Wren Carr, and Eyal Feigenbaum, "Fused silica optics damage from downstream intensification on laser-induced damage precursors," Appl. Opt. 60, 11084-11093 (2021)

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Table of Contents Category
- Lasers, Optical Amplifiers, and Laser Optics
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About this Article
History
- Original Manuscript: September 13, 2021
- Revised Manuscript: November 4, 2021
- Manuscript Accepted: November 19, 2021
- Published: December 13, 2021

Abstract

Management and control of damage initiation and growth on high-value National Ignition Facility (NIF) optics are critical to its operation. Cone-shaped features are currently being used on the input surfaces to arrest growth of exit surface damage by creating “shadows.” Light refracted from the walls of the cones interferes with the incident beam at the exit surface to create an intensified annulus. Significant exit surface damage was observed at the locations of these annuli. Analysis showed that this damage is consistent with a recently reported new mechanism that degrades damage resistance by dispersing damage precursors over the surface upon exposure to UV laser radiation. This has significant implications for the design and operation of high-energy and power laser systems such as the NIF.

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	1.5 -mm-Diameter 1.5-mm-Deep Cones	0.6-mm-Diameter 0.2-mm-Deep Cones	0.6-mm-Diameter 0.3-mm-Deep Cones
First shot ( $J / {c m}^{2}$ )	$11.94 \pm 2.91$	$12.26 \pm 2.56$	$11.97 \pm 2.52$
Second shot ( $J / {c m}^{2}$ )	$12.13 \pm 2.99$	$12.88 \pm 2.77$	$12.19 \pm 2.73$

Abstract

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Applied Optics