Laser-induced damage in fused silica under multi-wavelength  simultaneous laser irradiation

Qiu Rong; Jiang Yong; Guo Decheng; Shi Jinfang; Li Cui; Ye Cheng; Zhou Qiang; Han Wei; Huang Jin

doi:10.11884/HPLPB202032.190479

Volume 32 Issue 1

Dec. 2019

Turn off MathJax

Article Contents

Article Navigation > High Power Laser and Particle Beams > 2020 > 32(1): 011011

Qiu Rong, Jiang Yong, Guo Decheng, et al. Laser-induced damage in fused silica under multi-wavelength simultaneous laser irradiation[J]. High Power Laser and Particle Beams, 2020, 32: 011011. doi: 10.11884/HPLPB202032.190479

Citation:

Qiu Rong, Jiang Yong, Guo Decheng, et al. Laser-induced damage in fused silica under multi-wavelength simultaneous laser irradiation[J]. High Power Laser and Particle Beams, 2020, 32: 011011. doi: 10.11884/HPLPB202032.190479

Citation:

PDF( 942 KB)

Laser-induced damage in fused silica under multi-wavelength simultaneous laser irradiation

doi: 10.11884/HPLPB202032.190479

Qiu Rong^{1, 2
,},
Jiang Yong^{1, 2},
Guo Decheng^{1, 2},
Shi Jinfang^{1, 3},
Li Cui^{1, 3},
Ye Cheng¹,
Zhou Qiang¹,
Han Wei⁴,
Huang Jin⁴

1.
Joint Laboratory for Extreme Conditions Matter Properties, Southwest University of Science and Technology, Mianyang 621900, China
2.
Sichuan Civil-military Integration Institute, Mianyang 621900, China
3.
Key Laboratory of Testing Technology for Manufacturing Process, Ministry of Education, Southwest University of Science and Technology, Mianyang 621010, China
4.
Research Center of Laser Fusion, CAEP, P. O. Box 919-988, Mianyang 621900, China

Received Date: 2019-11-25
Rev Recd Date: 2019-12-26
Publish Date: 2019-12-26

Abstract

Abstract

The initial damage and damage growth of fused silica optical elements irradiated by 3ω alone, by two wavelengths (3ω＋2ω and 3ω＋1ω) at the same time were studied. When the energy density of 3ω is near its threshold, the influence of 2ω and 1ω of low energy density on the initial damage and damage growth is studied. The energy coupling mechanism between wavelengths is analyzed. The results show that: When the energy density of 2ω or 1ω is much lower than its threshold, irradiating at the same time, their effects on the initial damage probability and damage growth threshold can be ignored. But the initial damage degree and damage growth coefficient will increase. The measurement of shock wave velocity based on femtosecond dual pulse imaging shows that, when 3ω and 1ω irradiate at the same time, the energy coupling effect between wavelengths will promote the deposition efficiency of laser energy to materials.
- laser induced damage,
- fused silica,
- multiwavelength laser,
- initial damage,
- damage growth

FullText(HTML)

References(16)

References

[1]	Zhou Ming, Shao Jianda, Fan Zheng Xiu. Effect of multiple wavelengths combination on laser-induced damage in multilayer mirrors[J]. Optics Express, 2009, 17(22): 20313. doi: 10.1364/OE.17.020313
[2]	黄进, 任寰, 吕海兵, 等. 三种不同波长的激光对熔石英损伤行为的对比研究[J]. 光学与光电技术, 2007, 5(6):5-8. (Huang Jin, Ren Huan, Lü Haibing, et al. Comparison of damage action of fused silica at different laser wavelength[J]. Optics & Optoelectronic Technology, 2007, 5(6): 5-8 doi: 10.3969/j.issn.1672-3392.2007.06.002
[3]	Chambonneau M, Rullier J L, Grua P, et al. Wavelength dependence of the mechanisms governing the formation of nanosecond laser induced damage in fused silica[J]. Optics Express, 2018, 26(17): 21819-21830. doi: 10.1364/OE.26.021819
[4]	Norton M A, Donohue E E, Feit M D, et al. Growth of laser damage in SiO₂ under multiple wavelength irradiation[C]//Proc of SPIE. 2006: 599108. Laser-Induced Damage in Optical Materials. 2005.
[5]	周明, 赵元安, 李大伟, 等. 1 064 nm和532 nm激光共同辐照薄膜的损伤[J]. 中国激光, 2009, 36(11):3050. (Zhou Ming, Zhao Yuanan, Li Dawei, et al. Laser damage of optical film with the combined irradiation of 1 064 nm and 532 nm pulse[J]. Chinese Journal of Lasers, 2009, 36(11): 3050 doi: 10.3788/CJL20093611.3050
[6]	Carr C W, Matthews M J, Bude J D, et al. The effect of laser pulse duration on laser-induced damage in KDP and SiO₂ [C]//Proc of SPIE. 2007: 64030K.
[7]	Reyné S, Duchateau G, Natoli J Y, et al. 355 nm and 1064 nm-pulse mixing to identify the laser-induced damage mechanisms in KDP[C]//Proc of SPIE. 2011: 79370L.
[8]	Lamaignere L, Reyne S, Loiseau M, et al. Effects of wavelengths combination on initiation and growth of laser-induced surface damage in SiO₂[C]//Proc of SPIE. 2007: 67200F.
[9]	Exarhos G J, Norton M A, Ristau D, et al. Laser damage growth in fused silica with simultaneous 351 nm and 1 053 nm irradiation[C]//Proc of SPIE. 2008: 71321H.
[10]	Ma B, Ma H, Jiao H, et al. Laser-damage growth characteristics of fused silica under 1 064- and 532-nm laser irradiation[J]. Optical Engineering, 2013, 52: 116106. doi: 10.1117/1.OE.52.11.116106
[11]	Norton M A, Carr C W, Feit M D, et al. Laser damage growth in fused silica with simultaneous 351 nm and 1 053 nm irradiation[C]//Proc of SPIE. 2008: 713250.
[12]	Yan L, Wei C, Li D, et al. Coupling effect of multi-wavelength lasers in damage performance of beam splitters at 355 nm and 1064 nm[J]. Applied Optics, 2011, 51(16): 3243.
[13]	Chambonneau M, Lamaignere L. Multi-wavelength growth of nanosecond laser-induced surface damage on fused silica gratings[J]. Sci Rep, 2018, 8(1): 891. doi: 10.1038/s41598-017-18957-9
[14]	Demange P, Negres R A, Rubenchik A M, et al. Understanding and predicting the damage performance of KD_xH_2-xPO₄ crystals under simultaneous exposure to 532- and 355-nm pulses[J]. Applied Physics Letters, 2006, 89(18): 113.
[15]	邱荣, 蒋勇, 郭德成, 等. 多波长辐照下熔石英光学元件的损伤及损伤增长[J]. 强激光与粒子束, 2019, 31:082001. (Qiu Rong, Jiang Yong, Guo Decheng, et al. Damage and damage growth of fused silica optical elements under multi-wavelength irradiation[J]. High Power Laser and Particle Beams, 2019, 31: 082001
[16]	Taylor G. The formation of a blast wave by a very intense explosion. I. Theoretical discussion[J]. Proceedings of the Royal Society of London, Series A, Mathematical and Physical Sciences, 1950, 201(1065): 159-174. doi: 10.1098/rspa.1950.0049