基于SBS超短脉冲激光器的介质研究
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摘要
皮秒激光器在众多领域中都有广泛的应用,将纳秒量级激光器脉冲压缩至皮秒量级超短脉冲是目前获得高能量皮秒脉冲激光的常见方法之一。而基于布里渊散射(Stimulated Brillouin Scattering)的脉冲压缩系统结构简单,造价较低,是近年来较为热门的技术手段。布里渊散射脉冲压缩方案的技术关键在于介质研究。本文通过研究目前获得应用的三类介质的化学性能、物理特性以及压缩效果等,对比国内外研究现状,分析了受激布里渊散射对介质的要求以及未来的发展方向。
Picosecond lasers have been widely used in many fields. Compressing nanosecond laser pulses to picosecond-level ultrashort pulses is one of the common methods of obtaining high-energy picosecond pulsed lasers. The pulse compression system based on Brillouin scattering has simple structure,low cost,and is a relatively popular technological method in recent years The key technology of the Brillouin scattering pulse compression scheme lies in the study of the medium. In this paper,by studying the chemical properties,physical properties and compression effects of the three types of media currently applied,the requirements of stimulated brillouin scattering(SBS) on the media and the development direction in the future are analyzed by comparing the research status at home and abroad.
Picosecond lasers have been widely used in many fields. Compressing nanosecond laser pulses to picosecond-level ultrashort pulses is one of the common methods of obtaining high-energy picosecond pulsed lasers. The pulse compression system based on Brillouin scattering has simple structure,low cost,and is a relatively popular technological method in recent years The key technology of the Brillouin scattering pulse compression scheme lies in the study of the medium. In this paper,by studying the chemical properties,physical properties and compression effects of the three types of media currently applied,the requirements of stimulated brillouin scattering(SBS) on the media and the development direction in the future are analyzed by comparing the research status at home and abroad.
引文
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[3] HUA Xijun,WANG Cheng,HAO Jingwen,et al.Picosecond laser processing technology of micro-dimple texture on surface of TC11 titanium alloy[J].Surface Technology,2018,(3):42-71.(in Chinese)华希俊,王成,郝静文,等.TC11钛合金表面微凹坑织构皮秒激光加工工艺[J].表面技术,2018,(3):42-71.
[4] H G Rinderknecht,P Amendt,S Wilks,et al.Kinetic physics in ICF:present understanding and future directions[J].Plasma Physics & Controlled Fusion,2018,60(6):064001.
[5] D T Hon.Pulse compression by stimulated Brillouin scattering[J].Opt.Lett.,1980,5(12):516-518.
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[19] M Sun,U Eppelt,W Schulz,et al.Ultrafast reflection and secondary ablation in laser processing of transparent dielectrics with ultrashort pulses[J].Optical Engineering,2014,53(5):051512.
[20] M Sun,U Eppelt,S Russ,et al.Numerical analysis of laser ablation and damage in glass with multiple picosecond laser pulses[J].Optics Express,2013,21(7):7858-7867.
[21] D T Kyrazis,T L Weiland.Determination of SBS-induced damage limits in large fused silica optics for intense,time-varying laser pulses[C]//Bouleder-dl Tentative,1991.
[22] J Bude,P Miller,S Baxamus,et al.High fluence laser damage precursors and their mitigation in fused silica[J].Optics Express,2014,22(5):5839-5851.
[23] HAO Yanfei,SUN Mingying,SHI Shuang,et al.Research on rear surface damage in picosecond laser ablation of K9 glass[J].Chinese Journal of Lasers,2017(1):129-138.(in Chinese)郝艳飞,孙明营,时双,等.皮秒激光烧蚀K9玻璃后表面损伤研究[J].中国激光,2017,(1):129-138.
[24] ZHU Deyan,PENG Zhitao,XIANG Yong.Analysis of stimulated Brillouin scattering damage by reflected diffraction of fused silica grating with large aperture[J].Chinese Journal of Lasers,2018,45(1):0108002.(in Chinese)朱德燕,彭志涛,向勇.大口径融石英光栅反射衍射的SBS损伤分析[J].中国激光,2018,45(1):0108002.
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[26] LI Jianchao,Su Junhong,Xu Junqi,et al.Combined test method of laser damage threshold for K9 glass[J].Laser & Infrared,2017,47(8):963-967.(in Chinese)李建超,苏俊宏,徐均琪,等.K9玻璃激光损伤的组合测试实验[J].激光与红外,2017,47(8):963-967.
[27] LI Qiang,LU Zhiwei,HASI Wuliji,et al.Study on parameters and performances of SBS medium C4Cl6[J].High Power Laser and Particle Beams,2006,18(9):1481-1485.(in Chinese)李强,吕志伟,哈斯乌力吉,等.SBS新介质C4Cl6参数确定及性能研究[J].强激光与粒子束,2006,18(9):1481-1485.
[28] A S Dement′Ev,I Demin,E Murauskas,et al.Compression of pulses during their amplification in the field of a focused counterpropagating pump pulse of the same frequency and width in media with electrostriction nonlinearity[J].Quantum Electronics,2011,41(2):153-159.
[29] HASI Wuliji,LU Zhiwei,LI Qiang,et al.Research on optical breakdown of SBS media [J].Chinese Journal of Physics,2006,55(10):5252-5256.(in Chinese)哈斯乌力吉,吕志伟,李强,等.受激布里渊散射介质光学击穿的研究[J].物理学报,2006,55(10):5252-5256.
[30] SHEN Xueli,LI Suhua,CHI Lifeng.Researching modification and Performance testing of organic molecular purification equipment [J].Science and Technology Vision,2017(32):64-65.(in Chinese)申学礼,李速华,迟力峰.有机分子提纯设备的研发改造与性能测试[J].科技视界,2017(32):64-65.
[31] L Dai.Sublimation method for the purification of organic small molecules[J].Archives of Physical Medicine & Rehabilitation,2015,345(4):317-325.
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[2] YANG Cuixia,YANG Shuai,XIANG Junni,et al.Clinical analysis of Q-switched 755 nm picosure laser combined with intense pulsed light in the treatment of facial freckles[J].Chinese Cosmetology Medicine,2018(2):69-72.(in Chinese)杨翠霞,杨帅,向俊妮,等.Q开关755 nm皮秒激光联合强脉冲光治疗面部雀斑临床分析[J].中国美容医学,2018(2):69-72.
[3] HUA Xijun,WANG Cheng,HAO Jingwen,et al.Picosecond laser processing technology of micro-dimple texture on surface of TC11 titanium alloy[J].Surface Technology,2018,(3):42-71.(in Chinese)华希俊,王成,郝静文,等.TC11钛合金表面微凹坑织构皮秒激光加工工艺[J].表面技术,2018,(3):42-71.
[4] H G Rinderknecht,P Amendt,S Wilks,et al.Kinetic physics in ICF:present understanding and future directions[J].Plasma Physics & Controlled Fusion,2018,60(6):064001.
[5] D T Hon.Pulse compression by stimulated Brillouin scattering[J].Opt.Lett.,1980,5(12):516-518.
[6] XIONG Wenlong,Chen Nianjiang,Yan Xiaolin,et al.Pulse compression technology in the application of the coherent laser detection [J].Laser & Infrared,2014,44(2):122-125.(in Chinese)熊文龙,陈念江,眭晓林,等.脉冲压缩技术在相干激光探测中的应用[J].激光与红外,2014,44(2):122-125.
[7] E Takahashi,K Kuwahara,Y Matsumoto,et al.High-intensity short KrF laser-pulse generation by saturated amplification of truncated leading-edge pulse[J].Optics Communications,2000,185(4):431-437.
[8] Y Nizienko,A Mamin,P Nieisen,et al.300 ps ruby laser using stimulated Brillouin scattering pulse compression[J].Rev.Sci.Instrum,1994,65(8):2460-2463.
[9] V S Sirazetdinov,V N Alekseev,A V Charukhchev,et al.Development of kJ channel for Nd-glass laser systems with 70ns pulse SBS compressor[J].SPIE,1999,3492:1002-1008.
[10] HAO Guangsheng,LIU Songhao.Strong Light Optics [M].Beijing:Science Press,2011.(in Chinese)郝光生,刘颂豪.强光光学[M].北京:科学出版社,2011.
[11] HASI Wuliji,LU Zhiwei,HE Weiming.Three kinds of stimulated Brillouin scattering media [J].Journal of Laser,2003,24(4):8-10.(in Chinese)哈斯乌力吉,吕志伟,何伟明.受激布里渊散射(SBS)中的三类介质[J].激光杂志,2003,24(4):8-10.
[12] JIANG Xiaocun.Study on the pulse width stability of stimulated Brillouin scattering for KrF laser[D].Harbin:Harbin Institute of Technology,2006.(in Chinese)蒋萧村.KrF激光受激布里渊散射脉宽稳定性研究[D].哈尔滨:哈尔滨工业大学,2006.
[13] LIN Dianyang,JIANG Xiaocun,WANG Shujie,et al.Pulse duration stability of stimulated Brillouin scattering in SF6 pumped by a broadband KrF Laser[J].Chinese Journal of Laser,2008,35(2):163-167.(in Chinese)林殿阳,蒋萧村,王淑杰,等.宽带KrF激光抽运SF6受激布里渊散射的脉宽稳定性[J].中国激光,2008,35(2):163-167.
[14] R Y Chiao,C H Townes,B P Stoicheff.Stimulated Brillouin scattering and coherent generation of intense hypersonic waves[J].Physical Review Letters,1964,12(21):592-595.
[15] H Yoshida,H Fujita,M Nakatsuka,et al.Compact temporal pulse compressor used in fused-silica glass at 1064 nm wavelength[J].Jpn.J.Appl.Phys.,2007,46:80-82.
[16] GUO Shaofeng,LIN Wenxiong,LU QiSheng,et al.Experimental research on stimulated Brillouin scattering in fused silica glass[J].Acta Phys.Sin.,2007,56(4):2218-2222.(in Chinese)郭少锋,林文雄,陆启生,等.熔融石英玻璃受激布里渊散射效应实验研究[J].物理学报,2007,56(4):2218-2222.
[17] G Marcus,S Pearl,G Pasmanik.Stimulated Brillouin scattering pulse compression to 175ps in a fused quartz at 1064 nm[J].J.Appl.Phys.,2008,(103):103105.
[18] M Sun,U Eppelt,C Hartmann,et al.Damage morphology and mechanism in ablation cutting of thin glass sheets with picosecond pulsed lasers[J].Optics & Laser Technology,2016,80:227-236.
[19] M Sun,U Eppelt,W Schulz,et al.Ultrafast reflection and secondary ablation in laser processing of transparent dielectrics with ultrashort pulses[J].Optical Engineering,2014,53(5):051512.
[20] M Sun,U Eppelt,S Russ,et al.Numerical analysis of laser ablation and damage in glass with multiple picosecond laser pulses[J].Optics Express,2013,21(7):7858-7867.
[21] D T Kyrazis,T L Weiland.Determination of SBS-induced damage limits in large fused silica optics for intense,time-varying laser pulses[C]//Bouleder-dl Tentative,1991.
[22] J Bude,P Miller,S Baxamus,et al.High fluence laser damage precursors and their mitigation in fused silica[J].Optics Express,2014,22(5):5839-5851.
[23] HAO Yanfei,SUN Mingying,SHI Shuang,et al.Research on rear surface damage in picosecond laser ablation of K9 glass[J].Chinese Journal of Lasers,2017(1):129-138.(in Chinese)郝艳飞,孙明营,时双,等.皮秒激光烧蚀K9玻璃后表面损伤研究[J].中国激光,2017,(1):129-138.
[24] ZHU Deyan,PENG Zhitao,XIANG Yong.Analysis of stimulated Brillouin scattering damage by reflected diffraction of fused silica grating with large aperture[J].Chinese Journal of Lasers,2018,45(1):0108002.(in Chinese)朱德燕,彭志涛,向勇.大口径融石英光栅反射衍射的SBS损伤分析[J].中国激光,2018,45(1):0108002.
[25] YI Yi,SUN Xianzhi,YANG Jianchang,et al.Simulation research on the interaction between high-energy laser and K9 spectralite [J].Laser & Infrared,2017,47(7):808-812.(in Chinese)易瑔,孙先知,杨建昌,等.高能激光与K9玻璃相互作用仿真实验研究[J].激光与红外,2017,47(7):808-812.
[26] LI Jianchao,Su Junhong,Xu Junqi,et al.Combined test method of laser damage threshold for K9 glass[J].Laser & Infrared,2017,47(8):963-967.(in Chinese)李建超,苏俊宏,徐均琪,等.K9玻璃激光损伤的组合测试实验[J].激光与红外,2017,47(8):963-967.
[27] LI Qiang,LU Zhiwei,HASI Wuliji,et al.Study on parameters and performances of SBS medium C4Cl6[J].High Power Laser and Particle Beams,2006,18(9):1481-1485.(in Chinese)李强,吕志伟,哈斯乌力吉,等.SBS新介质C4Cl6参数确定及性能研究[J].强激光与粒子束,2006,18(9):1481-1485.
[28] A S Dement′Ev,I Demin,E Murauskas,et al.Compression of pulses during their amplification in the field of a focused counterpropagating pump pulse of the same frequency and width in media with electrostriction nonlinearity[J].Quantum Electronics,2011,41(2):153-159.
[29] HASI Wuliji,LU Zhiwei,LI Qiang,et al.Research on optical breakdown of SBS media [J].Chinese Journal of Physics,2006,55(10):5252-5256.(in Chinese)哈斯乌力吉,吕志伟,李强,等.受激布里渊散射介质光学击穿的研究[J].物理学报,2006,55(10):5252-5256.
[30] SHEN Xueli,LI Suhua,CHI Lifeng.Researching modification and Performance testing of organic molecular purification equipment [J].Science and Technology Vision,2017(32):64-65.(in Chinese)申学礼,李速华,迟力峰.有机分子提纯设备的研发改造与性能测试[J].科技视界,2017(32):64-65.
[31] L Dai.Sublimation method for the purification of organic small molecules[J].Archives of Physical Medicine & Rehabilitation,2015,345(4):317-325.
[32] H Yoshida,V Kmetik,H Fujita,et al.Heavy fluorocarbon liquids for a phase-conjugated stimulated Brillouin scattering mirror[J].Appl.Opt,1997,36(16):3739-3744.
[33] H Park,C Lim,H Yoshida,et al.Measurement of stimulated Brillouin scattering characteristics in heavy fluorocarbon liquids and perfluoropolyether liquids[J].Jpn.J.Appl.Phys.,2006,(45):5073-5075.
[34] K Kuwaharaa,E Takahashib,Y Matsumotob,et al.High intensity pulse generation by saturated amplification of Stokes pulse with steep leading edge[J].SPIE,2011,4424:155-158.
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