Multi-wavelength growth of nanosecond laser-induced surface damage on fused silica gratings.
Ontology highlight
ABSTRACT: The nanosecond laser-induced damage growth phenomenon on the exit surface of fused silica grating is investigated at 1064?nm and 355?nm separately and also simultaneously. Experiments are first carried out on damage sites on a plane fused silica sample showing two different morphologies, and a damage type is selected for ensuring the repeatability of the subsequent tests. Comparing the mono-wavelength growth results on a grating and a plane fused silica sample, the periodic surface structure is found to be an aggravating factor for damage growth. This is highly supported by calculations of the enhancement of the optical electric field intensity thanks to Finite-Difference Time-Domain simulations. Finally, the mono-wavelength results enable us to quantify a coupling occurring in the multi-wavelength configuration, which could originate from the heating of the plasma (more likely produced in the ultraviolet) preferentially by the infrared pulse. This study provides interesting results about the involvement of the surface topography in damage growth, and paves the way towards the comprehension of this phenomenon at high-energy nanosecond laser facilities where fused silica gratings are simultaneously irradiated at several wavelengths.
SUBMITTER: Chambonneau M
PROVIDER: S-EPMC5772444 | biostudies-literature | 2018 Jan
REPOSITORIES: biostudies-literature
ACCESS DATA