液氘状态方程实验数据测量

贾果; 黄秀光; 谢志勇; 叶君建; 方智恒; 舒桦; 孟祥富; 周华珍; 傅思祖

doi:10.7498/aps.64.166401

物理学报

液氘状态方程实验数据测量

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贾果, 黄秀光, 谢志勇, 叶君建, 方智恒, 舒桦, 孟祥富, 周华珍, 傅思祖. 2015: 液氘状态方程实验数据测量, 物理学报, null(16): 166401. doi: 10.7498/aps.64.166401

引用本文:

贾果, 黄秀光, 谢志勇, 叶君建, 方智恒, 舒桦, 孟祥富, 周华珍, 傅思祖. 2015: 液氘状态方程实验数据测量, 物理学报, null(16): 166401. doi: 10.7498/aps.64.166401

Jia Guo, Huang Xiu-Guang, Xie Zhi-Yong, Ye Jun-Jian, Fang Zhi-Heng, Shu Hua, Meng Xiang-Fu, Zhou Hua-Zhen, Fu Si-Zu. 2015: Exp erimental measurement of liquid deuterium equation of state data, Acta Physica Sinica, null(16): 166401. doi: 10.7498/aps.64.166401

Citation:

Jia Guo, Huang Xiu-Guang, Xie Zhi-Yong, Ye Jun-Jian, Fang Zhi-Heng, Shu Hua, Meng Xiang-Fu, Zhou Hua-Zhen, Fu Si-Zu. 2015: Exp erimental measurement of liquid deuterium equation of state data, Acta Physica Sinica, null(16): 166401. doi: 10.7498/aps.64.166401

液氘状态方程实验数据测量

上海激光等离子体研究所,上海,201800

Exp erimental measurement of liquid deuterium equation of state data

摘要: 在神光II高功率激光装置上建立了液氘状态方程实验研究系统，在80 min内实现控温范围12—300 K可调、控温精度±0.03 K、机械震动620μm的实验控制精度；通过镀膜窗口质量筛选和靶体清洁工作解决了低温下窗口材料残余反射率高的难题，获得了信噪比较好的实验图像；利用神光II第九路输出3ω(351 nm)、3 ns、1000 J的能力，采用阻抗匹配方法，配合任意反射面速度干涉仪诊断系统，在国内首次获得液氘在约60 GPa压力下的冲击绝热线实验数据，数据与国外同压力区间数据符合较好，为下阶段约100 GPa压力范围液氘状态方程的实验研究奠定了基础.
- 液氘 /
- 状态方程 /
- 冲击波 /
- 信噪比
Abstract: An experimental research platform is built on Shenguang II high power laser facility for obtaining the equation of state of liquid deuterium which has ability to control the temperature in a range of 12–300 K with an accuracy of ±0.03 K in 80 min. By optimizing the coating processing and cleaning the target, we solve the problems that the residual reflection is too high and serious frosting takes place on the window of the target at low temperature, then we obtain the experimental image with a good signal-to-noise ratio. By using the impedance matching method and velocity interferometer system for any reflector, experimental Hugoniot data of liquid deuterium are obtained at a pressure of about 60 GPa under the output condition of 3ω, 3 ns, 1200 J on Shenguang II high power laser, which agrees well with the other published data in the same pressure regime and provides a good foundation for the next experimental study of liquid deuterium equation in 100 GPa pressure regime.

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液氘状态方程实验数据测量

上海激光等离子体研究所,上海,201800

关键词:

液氘 /
状态方程 /
冲击波 /
信噪比

摘要: 在神光II高功率激光装置上建立了液氘状态方程实验研究系统，在80 min内实现控温范围12—300 K可调、控温精度±0.03 K、机械震动620μm的实验控制精度；通过镀膜窗口质量筛选和靶体清洁工作解决了低温下窗口材料残余反射率高的难题，获得了信噪比较好的实验图像；利用神光II第九路输出3ω(351 nm)、3 ns、1000 J的能力，采用阻抗匹配方法，配合任意反射面速度干涉仪诊断系统，在国内首次获得液氘在约60 GPa压力下的冲击绝热线实验数据，数据与国外同压力区间数据符合较好，为下阶段约100 GPa压力范围液氘状态方程的实验研究奠定了基础.

English Abstract

Exp erimental measurement of liquid deuterium equation of state data

上海激光等离子体研究所,上海,201800

Keywords:

液氘 /
状态方程 /
冲击波 /
信噪比

Abstract: An experimental research platform is built on Shenguang II high power laser facility for obtaining the equation of state of liquid deuterium which has ability to control the temperature in a range of 12–300 K with an accuracy of ±0.03 K in 80 min. By optimizing the coating processing and cleaning the target, we solve the problems that the residual reflection is too high and serious frosting takes place on the window of the target at low temperature, then we obtain the experimental image with a good signal-to-noise ratio. By using the impedance matching method and velocity interferometer system for any reflector, experimental Hugoniot data of liquid deuterium are obtained at a pressure of about 60 GPa under the output condition of 3ω, 3 ns, 1200 J on Shenguang II high power laser, which agrees well with the other published data in the same pressure regime and provides a good foundation for the next experimental study of liquid deuterium equation in 100 GPa pressure regime.

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液氘状态方程实验数据测量

Exp erimental measurement of liquid deuterium equation of state data

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液氘状态方程实验数据测量

English Abstract

Exp erimental measurement of liquid deuterium equation of state data

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