上海超强超短激光实验装置
|
摘要
上海超强超短激光实验装置(SULF)是上海建设具有全球影响力的科创中心、打造世界级重大科技基础设施集群的首批重大项目之一。结合国内外超强超短激光研究现状和趋势,简单介绍了SULF的研制背景、建设现状和未来主要应用和发展方向。
Shanghai Superintense Ultrafast Laser Facility(SULF)is one of the key projects as major science infrastructures belonging to science and technology innovation center with global influence in Shanghai.Combining the research status and trends of superintense ultrafast laser at home and abroad,we briefly introduce the background,current status,and major potential applications of SULF.
Shanghai Superintense Ultrafast Laser Facility(SULF)is one of the key projects as major science infrastructures belonging to science and technology innovation center with global influence in Shanghai.Combining the research status and trends of superintense ultrafast laser at home and abroad,we briefly introduce the background,current status,and major potential applications of SULF.
引文
[1]Perry M D,Mourou G.Terawatt to petawatt subpicosecond lasers[J].Science,1994,264(5161):917-924.
[2]Kiriyama H,Mori M,Pirozhkov A S,et al.Highcontrast,high-intensity petawatt-class laser and applications[J].IEEE Journal of Selected Topics in Quantum Electronics,2015,21(1):1601118.
[3]Aoyama M,Yamakawa K,Akahane Y,et al.085-PW,33-fs Ti…sapphire laser[J].Optics Letters,2003,28(17):1594-1596.
[4]Wang Z H,Liu C,Shen Z W,et al.High-contrast1.16PW Ti…sapphire laser system combined with a doubled chirped-pulse amplification scheme and a femtosecond optical-parametric amplifier[J].Optics Letters,2011,36(16):3194-3196.
[5]Yu T J,Lee S K,Sung J H,et al.Generation of high-contrast,30fs,1.5 PW laser pulses from chirped-pulse amplification Ti:sapphire laser[J].Optics Express,2012,20(10):10807-10815.
[6]Chu Y X,Liang X Y,Yu L H,et al.High-contrast2.0petawatt Ti:sapphire laser system[J].Optics Express,2013,21(24):29231-29239.
[7]Bahk S,Rousseau P,Planchon T A,et al.Generation and characterization of the highest laser intensities(1022 W/cm2)[J].Optics Letters,2004,29(24):2837-2839.
[8]Service R F.Laser labs race for the petawatt[J].Science,2003,301(5630):154-156.
[9]Mourou G,Tajima T.The extreme light infrastructure:optics′next horizon[J].Optics and Photonics News,2011,22(7):47-51.
[10]Zeng X M,Zhou K N,Zuo Y L,et al.Multipetawatt laser facility fully based on optical parametric chirped-pulse amplification[J].Optics Letters,2017,42(10):2014-2017.
[11]Wang F Y,Xie G Q,Yuan P,et al.Theoretical design of 100-terawatt-level mid-infrared laser[J].Laser Physics Letters,2015,12(7):075402.
[12]Liang X Y,Leng Y X,Wang C,et al.Parasitic lasing suppression in high gain femtosecond petawatt Ti…sapphire amplifier[J].Optics Express,2007,15(23):15335-15341.
[13]Chu Y X,Gan Z B,Liang X Y,et al.High-energy large-aperture Ti…sapphire amplifier for 5PW laser pulses[J].Optics Letters,2015,40(21):5011-5014.
[14]Xu L,Yu L H,Liang X Y,et al.High-energy noncollinear optical parametric-chirped pulse amplification in LBO at 800nm[J].Optics Letters,2013,38(22):4837-4840.
[15]Yu L H,Liang X Y,Xu L,et al.Optimization for high-energy and high-efficiency broadband optical parametric chirped-pulse amplification in LBO near800nm[J].Optics Letters,2015,40(14):3412-3415.
[16]Gan Z B,Yu L H,Li S,et al.200Jhigh efficiency Ti:sapphire chirped pulse amplifier pumped by temporal dual-pulse[J].Optics Express,2017,25(5):5169-5178.
[17]Cartlidge E.Eastern Europe′s laser centers will debut without a star[J].Science,2017,355(6327):785.
[18]Cartlidge E.The light fantastic[J].Science,2018,359(6374):382-385.
[2]Kiriyama H,Mori M,Pirozhkov A S,et al.Highcontrast,high-intensity petawatt-class laser and applications[J].IEEE Journal of Selected Topics in Quantum Electronics,2015,21(1):1601118.
[3]Aoyama M,Yamakawa K,Akahane Y,et al.085-PW,33-fs Ti…sapphire laser[J].Optics Letters,2003,28(17):1594-1596.
[4]Wang Z H,Liu C,Shen Z W,et al.High-contrast1.16PW Ti…sapphire laser system combined with a doubled chirped-pulse amplification scheme and a femtosecond optical-parametric amplifier[J].Optics Letters,2011,36(16):3194-3196.
[5]Yu T J,Lee S K,Sung J H,et al.Generation of high-contrast,30fs,1.5 PW laser pulses from chirped-pulse amplification Ti:sapphire laser[J].Optics Express,2012,20(10):10807-10815.
[6]Chu Y X,Liang X Y,Yu L H,et al.High-contrast2.0petawatt Ti:sapphire laser system[J].Optics Express,2013,21(24):29231-29239.
[7]Bahk S,Rousseau P,Planchon T A,et al.Generation and characterization of the highest laser intensities(1022 W/cm2)[J].Optics Letters,2004,29(24):2837-2839.
[8]Service R F.Laser labs race for the petawatt[J].Science,2003,301(5630):154-156.
[9]Mourou G,Tajima T.The extreme light infrastructure:optics′next horizon[J].Optics and Photonics News,2011,22(7):47-51.
[10]Zeng X M,Zhou K N,Zuo Y L,et al.Multipetawatt laser facility fully based on optical parametric chirped-pulse amplification[J].Optics Letters,2017,42(10):2014-2017.
[11]Wang F Y,Xie G Q,Yuan P,et al.Theoretical design of 100-terawatt-level mid-infrared laser[J].Laser Physics Letters,2015,12(7):075402.
[12]Liang X Y,Leng Y X,Wang C,et al.Parasitic lasing suppression in high gain femtosecond petawatt Ti…sapphire amplifier[J].Optics Express,2007,15(23):15335-15341.
[13]Chu Y X,Gan Z B,Liang X Y,et al.High-energy large-aperture Ti…sapphire amplifier for 5PW laser pulses[J].Optics Letters,2015,40(21):5011-5014.
[14]Xu L,Yu L H,Liang X Y,et al.High-energy noncollinear optical parametric-chirped pulse amplification in LBO at 800nm[J].Optics Letters,2013,38(22):4837-4840.
[15]Yu L H,Liang X Y,Xu L,et al.Optimization for high-energy and high-efficiency broadband optical parametric chirped-pulse amplification in LBO near800nm[J].Optics Letters,2015,40(14):3412-3415.
[16]Gan Z B,Yu L H,Li S,et al.200Jhigh efficiency Ti:sapphire chirped pulse amplifier pumped by temporal dual-pulse[J].Optics Express,2017,25(5):5169-5178.
[17]Cartlidge E.Eastern Europe′s laser centers will debut without a star[J].Science,2017,355(6327):785.
[18]Cartlidge E.The light fantastic[J].Science,2018,359(6374):382-385.