D. Mancelli, I. Errea, A. Tentori, O. Turianska, H. Larreur, K. Katagiri, N. Ozaki, N. Kamimura, D. Kamibayashi, K. Ishida, H. Ogura, K. Kawasaki, Y. Maeda, Y. Hironaka, K. Shigemori, K. Batani, G. Schaumann, O. Rosmej, P. Neumayer, B. Zielbauer, A. Martynenko, E. Filippov, S. Pikuz, D. Batani
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引用次数: 1
摘要
在这项工作中,我们给出了在兆巴压力下液态水行为的实验结果。实验使用激光工程研究所(ILE)的高强度等离子体实验研究(HIPER)激光设备,GEKKO XII (GXII)的单轴照射室和GSI (GSI亥姆霍兹重离子研究中心)的PHELIX(单束高功率激光设备),向固体多层水样中发射平面激波。在0.50 ~ 4.6 Mbar压力范围内,通过调整激光驱动参数,获得了水h2o的状态方程数据。以VISAR和SOP作为诊断工具,石英作为阻抗失配实验的标准材料,同时测定Hugoniot参数(压力、密度等)和冲击温度。最后,将实验结果与不同状态方程下的水动力模拟结果进行了比较,结果表明,我们的实验结果与芝麻水表具有良好的相容性。
Shock Hugoniot Data for Water up to 5 Mbar Obtained with Quartz Standard at High-Energy Laser Facilities
In this work, we present experimental results on the behavior of liquid water at megabar pressure. The experiment was performed using the HIPER (High-Intensity Plasma Experimental Research) laser facility, a uniaxial irradiation chamber of GEKKO XII (GXII) at the Institute of Laser Engineering (ILE), and the PHELIX at GSI (GSI Helmholtz Centre for Heavy Ion Research), a single-beam high-power laser facility, to launch a planar shock into solid multilayered water samples. Equation-of-state data of water
H
2
O
are obtained in the pressure range 0.50–4.6 Mbar by tuning the laser-drive parameters. The Hugoniot parameters (pressure, density, etc.) and the shock temperature were simultaneously determined by using VISAR and SOP as diagnostic tools and quartz as the standard material for impedance mismatch experiments. Finally, our experimental results are compared with hydrodynamic simulations tested with different equations of state, showing good compatibility with tabulated SESAME tables for water.
期刊介绍:
Laser and Particle Beams is an international journal which deals with basic physics issues of intense laser and particle beams, and the interaction of these beams with matter. Research on pulse power technology associated with beam generation is also of strong interest. Subjects covered include the physics of high energy densities; non-LTE phenomena; hot dense matter and related atomic, plasma and hydrodynamic physics and astrophysics; intense sources of coherent radiation; high current particle accelerators; beam-wave interaction; and pulsed power technology.
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