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Hugoniot measurements on copper to 0.8 TPa by laser-driven shock waves

Published online by Cambridge University Press:  09 March 2009

Gu Yuan
Affiliation:
Shanghai Laser Laboratory, China Academy of Engineering Physics, Shanghai, China
Wang Yonggang
Affiliation:
Shanghai Laser Laboratory, China Academy of Engineering Physics, Shanghai, China
Fu Sizu
Affiliation:
Shanghai Laser Laboratory, China Academy of Engineering Physics, Shanghai, China
Wu Jiang
Affiliation:
Shanghai Laser Laboratory, China Academy of Engineering Physics, Shanghai, China
Yu Songyu
Affiliation:
Shanghai Laser Laboratory, China Academy of Engineering Physics, Shanghai, China
Wan Binggen
Affiliation:
Shanghai Laser Laboratory, China Academy of Engineering Physics, Shanghai, China
Zhou Guanlin
Affiliation:
Shanghai Laser Laboratory, China Academy of Engineering Physics, Shanghai, China
Wang Xin
Affiliation:
Shanghai Laser Laboratory, China Academy of Engineering Physics, Shanghai, China
Han Guojiang
Affiliation:
Shanghai Laser Laboratory, China Academy of Engineering Physics, Shanghai, China
Zeng Yixin
Affiliation:
Shanghai Laser Laboratory, China Academy of Engineering Physics, Shanghai, China
Ma Minxun
Affiliation:
College of Engineering, Shanghai University, Shanghai, China

Abstract

An experiment on Al-Cu impedance-match targets, carried out at the Shenguang highpower laser facility, is described. The shock adiabat of Cu in the pressure region 0.4- 0.8 TPa, measured experimentally, is close to the extrapolated results of the data at lower pressure obtained with a high-explosive loading facility and also is in agreement with the data at high pressure measured in the underground nuclear test environment.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1993

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References

REFERENCES

De, Ximing et al. 1986 Appl. Opt. 25, 377.Google Scholar
Eliezer, S., Gazit, Y. & Gislath, I. 1990 J. Appl. Phys. 68, 356.Google Scholar
Eliezer, S., Ghatak, A. K. & Hora, H. 1986 An Introduction to Equations of State: Theory & Applications. (Cambridge University Press, Cambridge, UK).Google Scholar
Fortov, V. E. 1991 In Enrico Fermi Summer School 1989, No. 113, S. Eliezer & R. Ricci, eds. (in press).Google Scholar
Gu, Yuan et al. 1986 In Proceedings of the International Symposium on Intense Dynamic Loading and its Effects (Science Press, Beijing, China), p. 131.Google Scholar
Gu, Yuan et al. 1988 Acta Phys. Sin.. 37, 1690 (in Chinese).Google Scholar
Mcqueen, R. G. et al. 1970 In High Velocity Impact Phenomena, Kinslow, R., ed. (Academic, New York), p. 530.Google Scholar
Nellis, W. J. et al. 1988 Phys. Rev. Lett. 60, 1414.CrossRefGoogle Scholar
Xu, Xishen et al. 1986 In Introduction to Applied Theory of Equation of State (Science Press, Beijing, China), p. 521 (in Chinese).Google Scholar