Abstract
Fused silica optics are key components to manipulate high energy Inertial Confinement Fusion (ICF) laser beams but their optical properties can be degraded by laser-induced damage. The detection of laser damage sites is of major importance. The challenge is to monitor damage initiation and growth at sub-pixel scale with highly sensitive measurements. The damage diameter is a widely used indicator to quantify damage growth but its accuracy is strongly dependent on the available image resolution. More recently, it was shown that registration residual maps (i.e., gray level differences between two registered images) could also be used to monitor laser-induced damage. In this paper, the performance of both indicators are compared to detect laser damage initiation and growth at high and low image resolutions thanks to a highly instrumented laser setup. The results prove that registration residual maps are more efficient to detect sub-pixel laser damage growth than diameter measurements at a given image resolution. The registration residual maps are therefore a powerful indicator for monitoring laser-induced damage initiation and growth at sub-pixel scale either for laser damage metrology setups, for high energy laser facilities, or other situations where damage is suspected to occur. The accuracy of (laser-induced) damage laws may also be improved thanks to this tool.
Highlights
The optics of high energy Inertial Confinement Fusion (ICF) laser facilities suffer from laserinduced damage
Optics mitigation at the Laser MegaJoule (LMJ) facility is effective only if the damage site diameter is less than 700 μm, and if early damage growth is measurable
The observed final optics at National Ignition Facility (NIF) are the vacuum windows, the second and third harmonic generator crystals, the final focusing lens and the main debris shield [6] whereas only the vacuum windows and the focusing gratings are observed at LMJ [2]
Summary
The optics of high energy Inertial Confinement Fusion (ICF) laser facilities suffer from laserinduced damage. Optics mitigation at the Laser MegaJoule (LMJ) facility is effective only if the damage site diameter is less than 700 μm, and if early damage growth is measurable. The objective is to detect laser damage sites before they reach sizes of about 100 μm [2,5] This physical size represents about one pixel for observation systems of high energy laser installations such as Final Optics Damage Inspection (FODI) at the National Ignition Facility (NIF) [6] and ShenGuang-III (SG-III) [7], or the Chamber Center Diagnostic Module (MDCC [2,8]) of the LMJ facility [8]. The observed final optics at NIF are the vacuum windows, the second and third harmonic generator crystals, the final focusing lens and the main debris shield [6] whereas only the vacuum windows and the focusing gratings are observed at LMJ [2]
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