激光驱动气库靶对铝的准等熵压缩实验研究

单连强; 高宇林; 辛建婷; 王峰; 彭晓世; 徐涛; 周维民; 赵宗清; 曹磊峰; 吴玉迟; 朱斌; 刘红杰; 刘东晓; 税敏; 何颖玲; 詹夏宇; 谷渝秋

doi:10.7498/aps.61.135204

摘要

利用激光驱动气库材料形成的等离子体射流对材料进行斜波加载, 可以获得高应变率的准等熵压缩. 在神光III 原型高功率激光装置上开展了激光驱动铝材料的准等熵压缩实验, 成像型速度干涉仪VISAR记录到样品自由面连续、光滑的速度历史, 采用反积分法得到60 GPa以上的峰值压强, 加载上升沿约10 ns,应变率可达108 s -1, 并且观察到了压缩波在样品后表面的反射效应.

关键词:

激光驱动 /
准等熵 /
气库靶 /
反积分

The quasi-isentropic compression of material with high strain rate can be obtained by the ramp wave loading of plasma jet produced by laser-driven reservoir target. The quasi-isentropic compression experiments of aluminum are carried out on the high power laser facility of SG-III prototype. The smooth and continuous speed history of free surface of specimen is recorded with a line-imaging velocity interferometer (VISAR). The peak pressure (60 GPa), the rise time of the load (～ 10 ns) and the strain (～ 108 s-1) are derived by the back-integrating method, and the reverberation of compression wave at the rear surface of the sample is observed.

Keywords:

作者及机构信息

1.
中国工程物理研究院激光聚变研究中心,等离子体物理重点实验室, 绵阳 621900

基金项目: 国家自然科学基金(批准号: 11175165, 10902101, 10905051)资助的课题.

Authors and contacts

1.
Science and Technology on Plasma Physics Laboratory, Laser Fusion Research Center, China Academy of Engineering Physics, Mianyang 621900, China

Funds: Project supported by the National Natural Science Foundation of China (Grant Nos. 11175165, 10902101, 10905051).

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施引文献

[1]	Xu J A, Mao H K, Bell P M 1986 Science 232 1404
[2]	Jing F Q, Chen J X 2006 Dynamic High-Pressure Generation Principle and Related Technologies (Beijing: National Defence Industry Press) p31 (in Chinese) [经福谦, 陈俊祥 2006 动高压原理与技术 (北京:国防工业出版社) 第31页]
[3]
[4]
[5]	Nguyen J H, Orlikowski D, Streitz F H, Moriarty J A, Holmes N C 2006 J. Appl. Phys. 100 023508
[6]
[7]	Jarmakani H, McNaney J M, Kad B, Orlikowski D, Nguyen J H, Meyers M A 2007 Mater. Sci. Eng. A 463 249
[8]	Mashimo T, Ozaki S, Nagayama K 1984 Rev. Sci. Instrum. 55 226
[9]
[10]	Huang H J, Shen Q, Luo G Q, Zhang L M 2007 Acta Phys. Sin. 56 1538 (in Chinese) [黄海军,沈强,罗国强,张联盟 2007 56 1538]
[11]
[12]
[13]	Shen Q, Wang C B, Zhang L M, Hua J S, Tan H, Jing F Q 2002 Acta Phys. Sin. 51 1759 (in Chinese) [沈强, 王传彬, 张联盟, 华劲松, 谭华, 经福谦 2002 51 1759]
[14]
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[16]
[17]	Reisman D B, Toor A, Cauble R C, Hall C A, Asay J R, Knudson M D, Furnish M D 2001 J. Appl. Phys. 89 1625
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[19]
[20]
[21]	Guillot T 1999 Science 286 72
[22]	Laio A, Bernard S, Chiarotti G L, Scandolo S, Tosatti E 2000 Science 287 1027
[23]
[24]	Wigner E, Huntington H B 1935 J. Chem. Phys. 3 764
[25]
[26]	O'Keefe J D, Ahrens T J 1993 J. Geophys. Res. 17 011
[27]
[28]	Regazzoni G, Kocks U F, Follansbee P S 1987 Acta Metall. 35 2865
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[32]
[33]	Smith R F, Eggert J H, Jankowski A, Celliers P M, Edwards M J, Gupta Y M, Asay J R, Collins G W 2007 Phys. Rev. Lett. 98 065701
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[42]
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[46]
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[49]
[50]	Smith R F, Eggert J H, Saculla M D, Jankowski A F, Bastea M, Hicks D G, Collins G W 2008 Phys. Rev. Lett. 101 065701
[51]
[52]
[53]	Miyanishi K, Ozaki N, Brambrink E, Wei H G, Benuzzi-Mounaix A, Ravasio A, Diziere A, Vinci T, Koenig M, Kodama R 2010 J. Phys. Conf. Ser. 215 012199
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[55]
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[57]
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[59]
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[62]
[63]	Kerley G I 1987 Int. J. Impact Eng. 5 441
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[65]
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[68]	Li M, Zhang H P, Sun C W, Zhao J H, Yuan H 2011 J. Appl. Phys. 109 093525
[69]
[70]
[71]	Larsen J T, Lane S M 1994 J. Quant. Spectrosc. Radiat. Transf. 51 179
[72]
[73]	Moriarty J A, McMahan A K 1982 Phys. Rev. Lett. 48 809
[74]
[75]	Lam P K, Cohen M L 1983 Phys. Rev. B 27 5986
[76]
[77]	Boettger J C, Trickey S B 1996 Phys. Rev. B 53 3007
[78]
[79]	Akahama Y, Nishimura M, Kinoshita K, Kawamura H 2006 Phys. Rev. Lett. 96 045505
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[82]	Vailionis A, Gamaly E G, Mizeikis V, Yang W, Rode A V, Juodkazis S 2011 Nat. Commun. 2 445
[83]

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