利用软X射线双频光栅剪切干涉技术诊断金等离子体

王琛; 安红海; 王伟; 方智恒; 贾果; 孟祥富; 孙今人; 刘正坤; 付绍军; 乔秀梅; 郑无敌; 王世绩

doi:10.7498/aps.63.125210

摘要

激光辐照靶产生的等离子体电子密度的诊断对于惯性约束聚变、等离子体物理、高能量密度物理等相关领域的研究具有重要意义，特别是中、高Z材料等离子体临界面附近的电子密度分布信息的测量. 采用波长13.9 nm的类镍银软X射线激光作为探针，利用双频光栅剪切干涉技术尝试诊断了激光辐照金平面靶产生的等离子体的电子密度分布. 实验获得了清晰的干涉条纹图像，通过对条纹的初步处理，测量到的最高密度达到了约1.4倍临界密度. 通过与相关理论程序模拟结果对比，发现实验与模拟存在一定的偏差，为进一步优化模拟程序提供了有益的参考. 通过实验，充分表明了软X射线激光双频光栅干涉技术在诊断中、高Z材料临界密度附近区域等离子体方面的实用性.

关键词:

Abstract

The diagnoses of laser-produced plasma electron density have important significance for inertial confinement fusion, plasma physics, high energy density physics and other relevant fields, especially for measuring electron density distribution information of medium and high-Z material plasma near the critical density surface. With 13.9 nm Ni-like Ag X-ray laser serving as a probe, using double frequency grating shearing interference technique, the electron density distribution of plasma produced by laser irradiating a gold planar target is measured. Clear interference fringe image is obtained. Preliminary deduction of the fringe shows that the maximum density measured is about 1.4 times the critical density. It is found that there are some discrepancies between experimental results and simulation results, which provides a useful reference to the further optimization of the simulation program. The experimental results fully demonstrate that the soft X-ray double frequency grating shearing interference technique is practical to diagnose near-critical-density plasma of medium and high-Z materials, which will have a good application value.

Keywords:

diagnoses of plasma /
soft X-ray laser /
double frequency grating interference technique

作者及机构信息

1.
上海激光等离子体研究所, 上海 201800;

2.
中国科学技术大学, 国家同步辐射实验室, 合肥 230029;

3.
北京应用物理与计算数学研究所, 北京 100088

基金项目: 国家自然科学基金（批准号：10975135，11075146）和国家高技术研究发展计划（批准号：2010AA8041014）资助的课题.

Authors and contacts

1.
Shanghai Institude of Laser Plasma, Shanghai 201800, China;

2.
National Synchrotron Radiation Laboratory, University of Science and Technology of China, Hefei 230029, China;

3.
Institute of Applied Physics and Computational Mathematics, Beijing 100088, China

Funds: Project supported by the National Natural Science Foundation of China (Grant Nos. 10975135, 11075146) and the National High Technology Research and Development Program of China (Grant No. 2010AA8041014).

参考文献

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[2]	Liu L, Li L M, Xu Q F, Chang L, Wen J C 2009 Chin. Phys. B 18 3367
[3]	Pu Y D, Zhang J Y, Yang J M, Huang T X, Ding Y K 2011 Chin. Phys. B 20 015202
[4]	Landen O L, Winfied R J 1985 Phys. Rev. Lett. 54 1660
[5]	Glenzer S H, Gregori G, Lee R W, Rogers F J, Pollaine S W, Landen O L 2003 Phys. Rev. Lett. 90 175002
[6]	Visco A J, Drake R P, Glenzer S H, Döppner T, Gregori G, Froula D H, Grosskopf M J 2012 Phys. Rev. Lett. 108 145001
[7]	Wang C, An H H, Qiao X M, Fang Z H, Xiong J, Wang W, Sun J R, Zheng W D 2013 Acta Phys. Sin. 62 135203 (in Chinese) [王琛, 安红海, 乔秀梅, 方智恒, 熊俊, 王伟, 孙今人, 郑无敌 2013 62 135203]
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[9]	Ress D, DaSilva L B, London R A, Trebes J E, Mrowka S, Procassini R J, Barbee Jr T W, Lehr D E 1994 Science 265 514
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[11]	Wang C, Wang W, Sun J R, Fang Z H, Wu J, Fu S Z, Ma W X, Gu Y, Wang S J, Zhang G P, Zheng W D, Zhang T X, Peng H M, Shao P, Yi K, Lin Z Q, Wang Z S, Wang H C, Zhou B, Chen L Y, Jin C S 2005 Acta Phys. Sin. 54 202 (in Chinese) [王琛, 王伟, 孙今人, 方智恒, 吴江, 傅思祖, 马伟新, 顾援, 王世绩, 张国平, 郑无敌, 张覃鑫, 彭惠民, 邵平, 易葵, 林尊琪, 王占山, 王宏昌, 周斌, 陈玲燕, 金春水 2005 54 202]
[12]	Filevich J, Kanizay K, Marconi M C, Chilla J L, Rocca J J 2000 Opt. Lett. 25 356
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[14]	Rocca J J, Moreno C H, Marconi M C, Kanizay K 1999 Opt. Lett. 24 420
[15]	Wang Z S, Zhang Z, Wang F L, Wu W J, Wang H C, Qin S J, Cheng L Y 2004 High Power Laser and Particle Beams 16 1089 (in Chinese) [王占山, 张众, 王风丽, 吴文娟, 王洪昌, 秦树基, 陈玲燕 2004 强激光与粒子束 16 1089]
[16]	Liu Z K, Qiu K Q, Chen H Y, Liu Y, Xu X D, Fu S J, Wang C, An H H, Fang Z H 2013 Acta Phys. Sin. 62 070703 (in Chinese) [刘正坤, 邱克强, 陈火耀, 刘颖, 徐向东, 付绍军, 王琛, 安红海, 方智恒 2013 62 070703]
[17]	Wang R R, Chen W M, Wang W, Dong J Q, Xiao S L 2010 Chin. Phys. B 19 075202
[18]	Xiong J, Dong J Q, Jia G, Wang R R, Wang W, Fu S Z, Zheng W D 2013 Chin. Phys. B 22 065201
[19]	Matthews D L, Hagelstein P L, Rosen M D, Eckart M J, Ceglio N M, Hazi A U, Medecki H, MacGowan B J, Trebes J E, Whitten B L, Campbell E M, Hatcher C W, Hawryluk A M, Kauffman R L, Pleasance L D, Rambach G, Scofield J H, Stone G, Weaver T A 1985 Phys. Rev. Lett. 54 110
[20]	Wang S J, Gu Y, Zhou G L, Yu S Y, Fu S Z, Ni Y L, Wu J, Zhou Z L, Han G Q, Tao Z C, Lin Z Q, Wang S S, Chen W N, Fan D Y, Zhang G P, Sheng J T, Peng H M, Zhang T X, Shao Y F 1992 J. Opt. Soc. Am. B 9 360
[21]	Carillon A, Chen H Z, Dhez P, Dwivedi L, Jacoby J, Jaegle P, Jamelot G, Zhang J, Key M H, Kidd A, Klisnick A, Kodama R, Krishnan J, Lewis C L S, Neely D, Norreys P, O'Neill D, Pert G J, Ramsden S A, Raucourt J P, Tallents G J, Uhomoibhi J 1992 Phys. Rev. Lett. 68 2917
[22]	Koch J A, MacGowan B J, DaSilva L B, Matthews D L, Underwood J H, Batson P J, Mrowka S 1992 Phys. Rev. Lett. 68 3291
[23]	Rocca J J, Clark D P, Chilla L A, Shlyaptsev V N 1996 Phys. Rev. Lett. 77 1476
[24]	Zhang J, MacPhee A G, Lin J, Wolfrum E, Smith R, Danson C, Key M H, Lewis C L S, Neely D, Nilsen J, Pert G J, Tallents G J, Wark J S 1997 Science 276 1097
[25]	Wang C, Zhang G P, Zheng W D, Qiao X M, Fang Z H, Sun J R, Wang W, Xiong J, Fu S Z, Gu Y, Wang S J 2009 Acta Phys. Sin. 58 6264 (in Chinese) [王琛, 张国平, 郑无敌, 乔秀梅, 方智恒, 孙今人, 王伟, 熊俊, 傅思祖, 顾援, 王世绩 2009 58 6264]
[26]	Ramis R, Schmalz R, Meyer-Ter-Vehn J 1988 Comp. Phys. Comm. 49 475
[27]	Zheng W D, Zhang G P 2007 Chin. Phys. 16 2439

施引文献

[1]	Xiang Z L, Yu C X 1982 Diagnoses Techniques for High Temperature Plasma (Vol. 1) (Shanghai: Shanghai Science and Technology Publishing house) pp86-92 (in Chinese) [项志遴, 俞昌旋 1982 高温等离子体诊断技术 (上册) (上海: 上海科学技术出版社) 第86–92页]
[2]	Liu L, Li L M, Xu Q F, Chang L, Wen J C 2009 Chin. Phys. B 18 3367
[3]	Pu Y D, Zhang J Y, Yang J M, Huang T X, Ding Y K 2011 Chin. Phys. B 20 015202
[4]	Landen O L, Winfied R J 1985 Phys. Rev. Lett. 54 1660
[5]	Glenzer S H, Gregori G, Lee R W, Rogers F J, Pollaine S W, Landen O L 2003 Phys. Rev. Lett. 90 175002
[6]	Visco A J, Drake R P, Glenzer S H, Döppner T, Gregori G, Froula D H, Grosskopf M J 2012 Phys. Rev. Lett. 108 145001
[7]	Wang C, An H H, Qiao X M, Fang Z H, Xiong J, Wang W, Sun J R, Zheng W D 2013 Acta Phys. Sin. 62 135203 (in Chinese) [王琛, 安红海, 乔秀梅, 方智恒, 熊俊, 王伟, 孙今人, 郑无敌 2013 62 135203]
[8]	Cauble R, DaSilva L B, Barbee Jr T W, Celliers P, Moreno J C, Wan A S 1995 Phys. Rev. Lett. 74 3816
[9]	Ress D, DaSilva L B, London R A, Trebes J E, Mrowka S, Procassini R J, Barbee Jr T W, Lehr D E 1994 Science 265 514
[10]	DaSilva L B, Barbee T W, Cauble R, Celliers P, Ciarlo D, Libby S, London R A, Matthews D, Mrowka S, Moreno J C, Ress D, Trebes J E, Wan A S, Weber F 1995 Phys. Rev. Lett. 74 3991
[11]	Wang C, Wang W, Sun J R, Fang Z H, Wu J, Fu S Z, Ma W X, Gu Y, Wang S J, Zhang G P, Zheng W D, Zhang T X, Peng H M, Shao P, Yi K, Lin Z Q, Wang Z S, Wang H C, Zhou B, Chen L Y, Jin C S 2005 Acta Phys. Sin. 54 202 (in Chinese) [王琛, 王伟, 孙今人, 方智恒, 吴江, 傅思祖, 马伟新, 顾援, 王世绩, 张国平, 郑无敌, 张覃鑫, 彭惠民, 邵平, 易葵, 林尊琪, 王占山, 王宏昌, 周斌, 陈玲燕, 金春水 2005 54 202]
[12]	Filevich J, Kanizay K, Marconi M C, Chilla J L, Rocca J J 2000 Opt. Lett. 25 356
[13]	Le Déroff L, Salières P, Carré B, Joyeux D, Phalippou D 2000 Phys. Rev. A 61 043802
[14]	Rocca J J, Moreno C H, Marconi M C, Kanizay K 1999 Opt. Lett. 24 420
[15]	Wang Z S, Zhang Z, Wang F L, Wu W J, Wang H C, Qin S J, Cheng L Y 2004 High Power Laser and Particle Beams 16 1089 (in Chinese) [王占山, 张众, 王风丽, 吴文娟, 王洪昌, 秦树基, 陈玲燕 2004 强激光与粒子束 16 1089]
[16]	Liu Z K, Qiu K Q, Chen H Y, Liu Y, Xu X D, Fu S J, Wang C, An H H, Fang Z H 2013 Acta Phys. Sin. 62 070703 (in Chinese) [刘正坤, 邱克强, 陈火耀, 刘颖, 徐向东, 付绍军, 王琛, 安红海, 方智恒 2013 62 070703]
[17]	Wang R R, Chen W M, Wang W, Dong J Q, Xiao S L 2010 Chin. Phys. B 19 075202
[18]	Xiong J, Dong J Q, Jia G, Wang R R, Wang W, Fu S Z, Zheng W D 2013 Chin. Phys. B 22 065201
[19]	Matthews D L, Hagelstein P L, Rosen M D, Eckart M J, Ceglio N M, Hazi A U, Medecki H, MacGowan B J, Trebes J E, Whitten B L, Campbell E M, Hatcher C W, Hawryluk A M, Kauffman R L, Pleasance L D, Rambach G, Scofield J H, Stone G, Weaver T A 1985 Phys. Rev. Lett. 54 110
[20]	Wang S J, Gu Y, Zhou G L, Yu S Y, Fu S Z, Ni Y L, Wu J, Zhou Z L, Han G Q, Tao Z C, Lin Z Q, Wang S S, Chen W N, Fan D Y, Zhang G P, Sheng J T, Peng H M, Zhang T X, Shao Y F 1992 J. Opt. Soc. Am. B 9 360
[21]	Carillon A, Chen H Z, Dhez P, Dwivedi L, Jacoby J, Jaegle P, Jamelot G, Zhang J, Key M H, Kidd A, Klisnick A, Kodama R, Krishnan J, Lewis C L S, Neely D, Norreys P, O'Neill D, Pert G J, Ramsden S A, Raucourt J P, Tallents G J, Uhomoibhi J 1992 Phys. Rev. Lett. 68 2917
[22]	Koch J A, MacGowan B J, DaSilva L B, Matthews D L, Underwood J H, Batson P J, Mrowka S 1992 Phys. Rev. Lett. 68 3291
[23]	Rocca J J, Clark D P, Chilla L A, Shlyaptsev V N 1996 Phys. Rev. Lett. 77 1476
[24]	Zhang J, MacPhee A G, Lin J, Wolfrum E, Smith R, Danson C, Key M H, Lewis C L S, Neely D, Nilsen J, Pert G J, Tallents G J, Wark J S 1997 Science 276 1097
[25]	Wang C, Zhang G P, Zheng W D, Qiao X M, Fang Z H, Sun J R, Wang W, Xiong J, Fu S Z, Gu Y, Wang S J 2009 Acta Phys. Sin. 58 6264 (in Chinese) [王琛, 张国平, 郑无敌, 乔秀梅, 方智恒, 孙今人, 王伟, 熊俊, 傅思祖, 顾援, 王世绩 2009 58 6264]
[26]	Ramis R, Schmalz R, Meyer-Ter-Vehn J 1988 Comp. Phys. Comm. 49 475
[27]	Zheng W D, Zhang G P 2007 Chin. Phys. 16 2439

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