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神光Ⅲ原型装置背向散射光诊断系统的标定 被引量:3

Calibration of backscattered light diagnostic system on Shenguang Ⅲ prototype facility
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摘要 背向散射光诊断系统是惯性约束聚变实验中的重要诊断装置。概述了神光Ⅲ原型激光装置背反系统的基本结构和工作原理,详细介绍了一种全口径光斑透过率和光谱响应标定方法。该方法以高功率激光光源和氙灯光源作为标定源,利用特殊的标定光路形成大光斑覆盖背反系统光学元件的全部口径,模拟散射光在全孔径背反系统上的分布,分别对系统的透过率和光谱响应进行了标定。标定结果表明,全孔径背向散射系统受激拉曼散射支路能对波长大于400nm的光进行传递,在527nm处的透过率较低。 The backscattered light diagnostic system is an important measurement tool for the ICF experiments.The basic configuration and the optical path of the backscattered light diagnostic system implemented on ShenguangⅢ prototype facility are summarized in the paper.Aiming at improving veracity and simplifying the calibration process,a novel full aperture light beam calibration method of transmission and spectrum response is described in the paper.High power laser and white Xe lamp are chosen as calibration resource and a peculiar optical path is erected for modulating the light beam into a full aperture distribution so that the distributing of the backscattered light on the diagnostic system are simulated.Using the method,the transmission and spectrum response are calibrated and several data are shown in the paper.The calibration results show that the SRS branch has a limited wavelength of 400nm while the path has a poor transmittance at 527nm.
作者 徐涛 魏惠月 彭晓世 王峰 陈铭 李平 王伟
机构地区 中国工程物理研究院激光聚变研究中心
出处 《强激光与粒子束》 EI CAS CSCD 北大核心 2014年第3期99-103,共5页 High Power Laser and Particle Beams
基金 国家自然科学基金项目(10805041) 等离子体重点实验基金项目(9140C6801021001) 中国工程物理研究院科学技术发展基金项目(2011B0102020)
关键词 惯性约束聚变 背向散射光 透过率 光谱响应 标定 inertial confinement fusion backscattered light transmission spectrum response calibration
分类号 O435.2 [机械工程—光学工程]
  • 相关文献

参考文献14

  • 1LindlJ.Developmentoftheindirect-driveapproachtoinertialconfinementfusionandthetargetphysicsbasisforignitionandgain[J].Phys.Plasmas,1995,2(2):3933-4025.
  • 2LindlJ,AmendtPL,BergerR,etal.Thephysicsbasisforignitionusingindirect-drivetargetsontheNationalIgnitionFacility[J].PhysPlasmas,2004,11(2):339-391.
  • 3MacGowanBJ,AfeyanBB,BackCA,etal.Laser-plasmainteractionsinignition-scalehohlraumplasmas[J].PhysPlasmas,1996,3(5):2029-2040.
  • 4JuanCF,BrunoSB,JamesAC,etal.Measurementsoflaser-plasmainstabilityrelevanttoignitionhohlraums[J].PhysPlasmas,1997,4(5):1849-1856.
  • 5MoodyJD,MacGowanBJ,BergerRL,etal.Experimentalstudyoflaserbeamtransmissionandpoweraccountinginalargescalelengthlaserplasma[J].PhysPlasmas,2000,7(8):3388-3398.
  • 6MackinnonAJ,McCarvilleT,PistonK,etal.ImplementationofanearbackscatteringimagingsystemontheNationalIgnitionFacility[J].ReviewofScientificInstruments,2004,75(10):4183-4186.
  • 7StevensonR M,SuterLJ,OadesK,etal.Effectsofplasmacompositiononbackscatter,hotelectronproduction,andpropagationinunderdenseplasmas[J].PhysPlasmas,2004,11(5):2709-2715.
  • 8StevensonR M.Intensitylimitsforpropagationof527nmlaserbeamsthroughlargescalelengthplasmasforinertialconfinementfusion[J].PhysRevLett,2005,94:085005.
  • 9彭晓世,王峰,徐涛,刘慎业,魏惠月,刘永刚,梅雨,陈铭.神光Ⅲ原型全孔径背向散射测量系统研制及应用[J].光学学报,2012,32(8):87-92. 被引量:4
  • 10徐涛,彭晓世,魏惠月,闫亚东,王峰,刘慎业.神光Ⅲ原型装置的近背向散射光诊断系统[J].强激光与粒子束,2012,24(12):2853-2857. 被引量:6

二级参考文献39

  • 1王传珂,蒋小华,刘慎业,况龙钰,王哲斌,刘永刚,李三伟,李文洪.2ns,351nm激光黑腔靶受激Raman散射实验研究[J].强激光与粒子束,2006,18(7):1113-1116. 被引量:11
  • 2J. Lindl. Development of the indirect drive approach to inertial confinement fusion and the target physics basis for ignition and gain[J]. Phys. Plasma. , 1995, 2(11): 3933--4024.
  • 3J. D. Lindl, P. Amendt, R. L. Bergeretal.. Thephysics basis for ignition using indirect-drive targets on the National Ignition Facility[J]. Phys. Plasma., 2004, 11(2): 339-491.
  • 4D. H. Froula, L. Divol, R. A. London et al.. Pushing the limits of plasma length in inertial-fusion laser plasma interactionexperiments [J]. Phys. Rev. Lett., 2008,100(1): 015002.
  • 5D. E. Hinkel, D. A. Callahan, A. B. Langdoneta. Analyses of laser plasma interactions in National Ignition Facility ignition targets[J]. Phys. Plasma. , 2008, 15(5): 056314.
  • 6J. C. Fernandez, B. S. Bauer, J. A. Cobble et al.. Measurements of laser plasma instability relevant to ignition hohlraums[J]. Phys. Plasma., 1997, 4(5): 1849-1856.
  • 7D. H. Froula, L. Divol, N. B. Meezan et al.. Laser beam propagation through inertial confinement fusion hohlraum plasmas [J]. Phys. Plasma. , 2007, 14(5): 055705.
  • 8D. H. Froula, D. Bower, M. Chrisp et al.. Full-aperture backscatter measurements on the National lgnition Facility[J]. Rev. Sci. Instrum. , 2004, 75(10): 4168-4170.
  • 9J. D. Moody, P. Datte, K. Krauter et al.. Backscatter measurements for NIF ignition targets[J]. Rev. Sci. Instrum. , 2010, 81(10):10D921.
  • 10Y. Lin, T. J. Kessler, G. N. Lawrence. Design of continuous surface-relief phase plates by surface-based simulated annealing to achieve control of focal-plane irradianee[J]. Opt. Lett. , 1996,21(20): 1703-1705.

共引文献7

同被引文献39

  • 1江少恩,于燕宁.用于神光II激光装置的X光针孔相机[J].科学技术与工程,2005,5(22):1713-1716. 被引量:5
  • 2刘占军,郑春阳,曹莉华,李斌,朱少平.次稠密等离子体对激光与锥形靶相互作用的影响[J].物理学报,2006,55(1):304-309. 被引量:5
  • 3胡昕,江少恩,崔延莉,黄翼翔,丁永坤,刘忠礼,易荣清,李朝光,张景和,张华全.一种时间分辨三通道软X射线光谱仪[J].物理学报,2007,56(3):1447-1451. 被引量:13
  • 4Nuckolls J O, Wood L O, Thiessen A L, et al. Laser compression of matter to super-high densities: Thermonuclear (CTR) applications [J]. Nature, 1972, 239: 139-142.
  • 5Lindl J. Development of the indirect-drive approach to inertial confinement fusion and the target physics basis for ignition and gain[J]. Phys Plasmas, 1995, 2(11) : 3933-4024.
  • 6Tabak M, Hammer J, Glinsky M E, et ah Ignition and high gain with uhrapowerful lasers[J]. Phys Plasmas, 1994, 1(5) 1626-1634.
  • 7Kodama R, Shiraga H, Shigemori K, et al. Nuclear fusion: Fast heating scalable to laser fusion ignition[J]. Nature, 2002, 418: 933-934.
  • 8Betti R, Zhou C D, Anderson K S, et al. Shock ignition of thermonuclear fuel with high areal density[J]. Phys Rev Lett, 2007, 98 155001.
  • 9Ribeyre X, Schurtz G, LafonM, et al. Shock ignition: An alternative scheme r HiPER[J]. Plasma Phys Control Fusion, 2009, 51 015013.
  • 10Perkins L J, Betti R, Lafortune K N, et al. Shock ignition A new approach to high gain inertial confinement fusion on the national ignition facility[J]. Phys Rev Lett , 2009, 103: 045004.

引证文献3

  • 1徐涛,尚万里,魏惠月,彭晓世,王峰,杨家敏,刘慎业.基于神光Ⅲ原型装置的冲击点火分解实验[J].强激光与粒子束,2015,27(5):91-97. 被引量:4
  • 2理玉龙,李楠,魏惠月,王峰,徐涛,彭晓世,刘慎业,刘永刚,梅雨.近背向散射能量空间分布的时间分辨测量技术[J].强激光与粒子束,2015,27(9):148-152.
  • 3李三伟,杨冬,李欣,李志超,郭亮,谢旭飞,况龙钰,张璐,霍文义,吴畅书,陈耀桦,宋鹏,张桦森,曹柱荣,胡昕,侯立飞,易荣清,蒋小华,李琦,宋天明,彭晓世,徐涛,理玉龙,邓博,邓克立,王强强,杨品,黎航,袁铮,魏惠月,刘祥明,查为懿,刘永刚,王哲斌,章欢,詹夏宇,陈黎,梅雨,陈韬,李晋,杨志文,杜华冰,车兴森,杨轶蒙,杨正华,景龙飞,何小安,李朝光,王鹏,于瑞珍,苏春晓,陈铭,崔延莉,王峰,刘慎业,杨家敏,江少恩,张保汉,蓝可,古培俊,邹士阳,郑无敌,刘杰,丁永坤.我国激光间接驱动黑腔物理实验研究进展[J].中国科学:物理学、力学、天文学,2018,48(6):3-20. 被引量:6

二级引证文献10

强激光与粒子束
2014年 第3期

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