Experimental demonstration of laser damage caused by interface coupling effects of substrate surface and coating layers
The laser damage resistance of the coatings for high-power laser systems depends greatly on the surface quality of the substrate. In our work, experimental approaches were employed to understand the interface coupling effect of the substrate surface and coatings on the laser resistance of the coatin...
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| Published in | Optics letters Vol. 40; no. 16; p. 3731 |
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| Main Authors | , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
15.08.2015
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| Online Access | Get more information |
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| Abstract | The laser damage resistance of the coatings for high-power laser systems depends greatly on the surface quality of the substrate. In our work, experimental approaches were employed to understand the interface coupling effect of the substrate surface and coatings on the laser resistance of the coatings. A 1064 nm anti-reflection (AR) coating was deposited by an e-beam coater onto fused silica with and without micro-scale pits (structural defects). The micro-scale pits were precisely fabricated by femtosecond laser processing to prevent the emergence of subsurface cracks. Different deposition temperatures were characterized in order to verify the intensity of the interface coupling effect of the substrate and coating layers. Our experimental results indicate that impurities that are introduced in the finishing process, shifted to the substrate surface, and aggregated during the heating process, play a much more crucial role than structural defects (length: ∼7 μm; width: ∼3 μm; depth: ∼0.8 μm) in the laser-induced damage process. By effectively reducing the intensity of the interface coupling effect, the e-beam AR coatings, whose laser-induced damage resistance was closed to the bare substrate, was prepared. |
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| AbstractList | The laser damage resistance of the coatings for high-power laser systems depends greatly on the surface quality of the substrate. In our work, experimental approaches were employed to understand the interface coupling effect of the substrate surface and coatings on the laser resistance of the coatings. A 1064 nm anti-reflection (AR) coating was deposited by an e-beam coater onto fused silica with and without micro-scale pits (structural defects). The micro-scale pits were precisely fabricated by femtosecond laser processing to prevent the emergence of subsurface cracks. Different deposition temperatures were characterized in order to verify the intensity of the interface coupling effect of the substrate and coating layers. Our experimental results indicate that impurities that are introduced in the finishing process, shifted to the substrate surface, and aggregated during the heating process, play a much more crucial role than structural defects (length: ∼7 μm; width: ∼3 μm; depth: ∼0.8 μm) in the laser-induced damage process. By effectively reducing the intensity of the interface coupling effect, the e-beam AR coatings, whose laser-induced damage resistance was closed to the bare substrate, was prepared. |
| Author | Zhang, Weili Zhu, Meiping Wang, Hu Fang, Zhou Chai, Yingjie Cui, Yun Yi, Kui Shao, Jianda Bai, Zhengyuan |
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| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/26274646$$D View this record in MEDLINE/PubMed |
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| CitedBy_id | crossref_primary_10_1016_j_optlastec_2022_108399 crossref_primary_10_1117_1_OE_56_1_011003 crossref_primary_10_1364_OL_41_001253 crossref_primary_10_1364_OL_41_004464 crossref_primary_10_1016_j_apsusc_2017_09_111 crossref_primary_10_1016_j_optlastec_2023_110277 crossref_primary_10_1364_OL_41_003403 crossref_primary_10_1016_j_optlastec_2022_108074 crossref_primary_10_1017_hpl_2023_37 crossref_primary_10_1016_j_ceramint_2023_04_098 crossref_primary_10_1364_AO_56_008507 crossref_primary_10_1017_hpl_2022_24 crossref_primary_10_1016_j_jallcom_2020_157875 crossref_primary_10_1038_srep27076 crossref_primary_10_1021_acsami_4c03747 |
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| Title | Experimental demonstration of laser damage caused by interface coupling effects of substrate surface and coating layers |
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