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A joint diagnostic system for laser-driven shock wave experiments

Published online by Cambridge University Press:  13 June 2013

Hua Shu ,
Si-Zu Fu ,
Xiu-Guang Huang ,
Jia-Qin Dong ,
Zhi-Heng Fang ,
Tao Wang ,
Jun-Jian Ye ,
Zhi-Yong Xie ,
Jia Guo  and
Hua-Zhen Zhou
Hua Shu*
Affiliation:
Shanghai Institute of Laser Plasma, 201800 Shanghai, P.R. China
Si-Zu Fu
Affiliation:
Shanghai Institute of Laser Plasma, 201800 Shanghai, P.R. China
Xiu-Guang Huang
Affiliation:
Shanghai Institute of Laser Plasma, 201800 Shanghai, P.R. China
Jia-Qin Dong
Affiliation:
Shanghai Institute of Laser Plasma, 201800 Shanghai, P.R. China
Zhi-Heng Fang
Affiliation:
Shanghai Institute of Laser Plasma, 201800 Shanghai, P.R. China
Tao Wang
Affiliation:
Shanghai Institute of Laser Plasma, 201800 Shanghai, P.R. China
Jun-Jian Ye
Affiliation:
Shanghai Institute of Laser Plasma, 201800 Shanghai, P.R. China
Zhi-Yong Xie
Affiliation:
Shanghai Institute of Laser Plasma, 201800 Shanghai, P.R. China
Jia Guo
Affiliation:
Shanghai Institute of Laser Plasma, 201800 Shanghai, P.R. China
Hua-Zhen Zhou
Affiliation:
Shanghai Institute of Laser Plasma, 201800 Shanghai, P.R. China
*
ae-mail: shuhua_79@hotmail.com
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Abstract

A joint diagnostic system was established for the diagnosis of laser-driven shock wave experiments. The system has high temporal resolution (time resolution ~12 ps) and high spatial resolution (spatial resolution ~7 μm) and fits for diagnostics of the experiment with small sample size and short time physical process. The joint diagnostic system was applied for shock wave measurement on the Shenguang-II laser facility. The passive shock breakout signal and active diagnostic signal were simultaneously obtained. The temporal measurement reliability of the system was verified using a multi-layered target. The experimental results show that the two measurement results were consistent.

Type
Research Article
Information
The European Physical Journal - Applied Physics , Volume 62 , Issue 3 , June 2013 , 31001
Copyright
© EDP Sciences, 2013

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