2014
DOI: 10.1364/ol.39.000674
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Influence of longitudinal mode beating on laser-induced damage in fused silica

Abstract: In our study, the laser-induced damage densities on a fused silica surface produced by multiple longitudinal mode (MLM) pulses are found to be higher than those produced by single longitudinal mode pulses at 1064 nm. This behavior is explained by the enhancement of the three-photon absorption due to the intensity spikes related to longitudinal mode beating. At 355 nm, the absorption is linear and an opposite behavior occurs. It can be explained with the help of a process involving thermomechanics coupled with … Show more

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Cited by 44 publications
(23 citation statements)
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“…In order to obtain results that are independent of the LID morphology, the same initiation wavelength has been chosen in all the studied growth configurations. Since at a given fluence LID density is much higher at 3ω than at 1ω [4], the initiation wavelength has been chosen at 3ω. At high fluences (i.e., for damage initiation probability higher than 80%), the observed initiated damage sites generally show multiple pits.…”
Section: Methodsmentioning
confidence: 99%
See 1 more Smart Citation
“…In order to obtain results that are independent of the LID morphology, the same initiation wavelength has been chosen in all the studied growth configurations. Since at a given fluence LID density is much higher at 3ω than at 1ω [4], the initiation wavelength has been chosen at 3ω. At high fluences (i.e., for damage initiation probability higher than 80%), the observed initiated damage sites generally show multiple pits.…”
Section: Methodsmentioning
confidence: 99%
“…Since the conversion efficiency of the crystals is about 50%, the fused silica gratings are irradiated in a multiple wavelengths configuration by the main 3ω beam and also the 1ω and 2ω residual ones. The physical mechanisms involved during LID initiation on the exit surface of fused silica have recently been investigated at 1ω as well as at 3ω on samples polished with the same processes [4]. Studies of LID morphology show that subsurface cracks are located under the molten and fractured initiated craters [5,6].…”
Section: Introductionmentioning
confidence: 99%
“…Damage sites have also been initiated at 355 nm (3ω) in the SLM and the MLM case [5]. In both cases, Nomarski observations did not reveal any funnel-shaped regions nor any ring patterns of the same nature as the ones initiated at 1ω.…”
Section: Physical Modelingmentioning
confidence: 73%
“…The influence of mode composition on LID at 1064 nm (1ω) has been studied for the bulk of optical materials such as silicate glasses [3] and fused silica [4]. More recently, investigations on the exit surface of silica at 1ω report a difference of LID behavior between SLM and MLM regimes [5]. Earlier studies show that LID results from plasma formation in the neighborhood of an absorbing precursor defect [2,6,7].…”
Section: Introductionmentioning
confidence: 99%
“…This behavior was explained in Ref. 22 by the enhancement of the three-photon absorption due to the intensity spikes related to MLM pulses, these pulses are more inclined to give rise to multi-photon absorption than SLM ones.…”
Section: Single Longitudinal Mode (Slm) Regimementioning
confidence: 87%