期刊文献+
任意字段
题名或关键词
题名
关键词
文摘
作者
第一作者
机构
刊名
分类号
参考文献
作者简介
基金资助
栏目信息

The application of proton spectrometers at the SG-III facility for ICF implosion areal density diagnostics 被引量:1

The application of proton spectrometers at the SG-III facility for ICF implosion areal density diagnostics
原文传递
导出
摘要 Charged particle diagnostics is one of the required techniques for implosion areal density diagnostics at the SG-III facility.Several proton spectrometers are under development, and some preliminary areal density diagnostics have been carried out. The response of the key detector, CR39, to charged particles was investigated in detail. A new track profile simulation code based on a semi-empirical model was developed. The energy response of the CR39 detector was calibrated with the accelerator protons and alphas from a241 Am source. A proton spectrometer based on the filtered CR39 detector was developed, and D–D primary proton measurements were implemented. A step range filter spectrometer was developed,and preliminary areal density diagnostics was carried out. A wedged range filter spectrometer array made of Si with a higher resolution was designed and developed at the SG-III facility. A particle response simulation code by the Monte Carlo method and a spectra unfolding code were developed. The capability was evaluated in detail by simulations. Charged particle diagnostics is one of the required techniques for implosion areal density diagnostics at the SG-III facility.Several proton spectrometers are under development, and some preliminary areal density diagnostics have been carried out. The response of the key detector, CR39, to charged particles was investigated in detail. A new track profile simulation code based on a semi-empirical model was developed. The energy response of the CR39 detector was calibrated with the accelerator protons and alphas from a241 Am source. A proton spectrometer based on the filtered CR39 detector was developed, and D–D primary proton measurements were implemented. A step range filter spectrometer was developed,and preliminary areal density diagnostics was carried out. A wedged range filter spectrometer array made of Si with a higher resolution was designed and developed at the SG-III facility. A particle response simulation code by the Monte Carlo method and a spectra unfolding code were developed. The capability was evaluated in detail by simulations.
作者 Xing Zhang Jianhua Zheng Ji Yan Zhenghua Yang Ming Su Yudong Pu Pin Yang Xufei Xie Li Chen Ming Chen Tianxuan Huang Shao'en Jiang Shenye Liu Jiamin Yang
机构地区 Laser Fusion Research Center
出处 《High Power Laser Science and Engineering》 SCIE CAS CSCD 2015年第4期10-18,共9页 高功率激光科学与工程(英文版)
基金 supported by the Open Project of the State Key Laboratory of Nuclear Physics and Technology at Peking University(No.2014-02)
关键词 areal density DIAGNOSTICS CR39 detector SRF PROTON SPECTROMETER WRF PROTON SPECTROMETER areal density diagnostics CR39 detector SRF proton spectrometer WRF proton spectrometer
分类号 TL632 [核科学技术—核技术及应用] TH744.1 [机械工程—光学工程]
  • 相关文献

参考文献26

  • 1G. Immè,D. Morelli,M. Aranzulla,R. Catalano,G. Mangano.??Nuclear track detector characterization for alpha-particle spectroscopy(J)Radiation Measurements . 2013
  • 2D. Zhou,E. Semones,S. Guetersloh,N. Zapp,M. Weyland,E.R. Benton.??The experimental and simulated LET spectrum and charge spectrum from CR-39 detectors exposed to irons near CRaTER at BNL(J)Radiation Measurements . 2010 (8)
  • 3Lowell S. Brown,Dean L. Preston,Robert L. Singleton Jr..??Charged particle motion in a highly ionized plasma(J)Physics Reports . 2005 (4)
  • 4Marcel Reginatto,Paul Goldhagen,Sonja Neumann.??Spectrum unfolding, sensitivity analysis and propagation of uncertainties with the maximum entropy deconvolution code MAXED(J)Nuclear Inst. and Methods in Physics Research, A . 2002 (1)
  • 5C.K.Li,and R.D.Petrasso. Physics Review Letters . 1993
  • 6H.G.Rinderknecht,H.Sio,C.K.Li,A.B.Zylstra,M.J.Rosenberg,P.Amendt,J.Delettrez,C.Bellei,J.A.Frenje,M.Gatu Johnson,F.H.S′eguin,R.D.Petrasso,R.Betti,V.Yu.Glebov,D.D.Meyerhofer,T.C.Sangster,C.Stoeckl,O.Landen,V.A.Smalyuk,S.Wilks,A.Greenwood,A.Nikroo. Physics Review Letters . 2014
  • 7D.T.Casey,D.T.Woods,V.A.Smalyuk,O.A.Hurricane,V.Y.Glebov,C.Stoeckl,W.Theobald,R.Wallace,A.Nikroo,M.Schoff,K.J.Wu,J.A.Frenje,O.L.Landen,B.A.Remington,G.Glendinning. Physics Review Letters . 2015
  • 8F.H.S′eguin,J.A.Frenje,C.K.Li,D.G.Hicks,S.Kurebayashi,J.R.Rygg,B.-E.Schwartz,R.D.Petrasso,S.Roberts,J.M.Soures,D.D.Meyerhofer,T.C.Sangster,J.P.Knauer,C.Sorce,V.Yu.Glebov,C.Stoeckl,T.W.Phillips,R.J.Leeper,K.Fletcher,S.Padalino. The Review of Scientific Instruments . 2003
  • 9M.J.Rosenberg,A.B.Zylstra,J.A.Frenje,H.G.Rinderknecht,M.Gatu Johnson,C.J.Waugh,F.H.S′eguin,H.Sio,N.Sinenian,C.K.Li,R.D.Petrasso,V.Yu.Glebov,M.Hohenberger,C.Stoeckl,T.C.Sangster,C.B.Yeamans,S.Le Pape,A.J.Mackinnon,R.M.Bionta,B.Talison,D.T.Casey,O.L.Landen. The Review of Scientific Instruments . 2014
  • 10F.H.S′eguin,N.Sinenian,M.Rosenberg,A.Zylstra,M.J.-E.Manuel,H.Sio,C.Waugh,H.G.Rinderknecht,M.Gatu Johnson,J.Frenje,C.K.Li,R.Petrasso,T.C.Sangster,S.Roberts. The Review of Scientific Instruments . 2012

同被引文献4

引证文献1

  • 1滕建,邓志刚,单连强,温家星,袁宗强,王为武,张天奎,田超,张锋,于明海,卢峰,洪伟,贺书凯,张智猛,齐伟,崔波,徐秋月,魏来,李颖洁,夏立琼,张兴,吴玉迟,粟敬钦,周维民,谷渝秋.激光聚变内爆D^(3)He质子源的在线诊断系统[J].强激光与粒子束,2022,34(5):101-105.
High Power Laser Science and Engineering
2015年 第4期

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部