Exploring Warm Dense Matter with Laser Shock Wave

• Published in: The Review of High Pressure Science and Technology Vol. 27; no. 2; pp. 129 - 136
• Main Author: OZAKI, Norimasa
• Format: Journal Article
• Language: Japanese
• Published: The Japan Society of High Pressure Science and Technology 2017
• Subjects: ablation; dynamic compression; high-power laser; Hugoniot; shock wave; ultrafast diffraction; Warm Dense Matter; X-ray free electron laser
• ISSN: 0917-639X; 1348-1940
• DOI: 10.4131/jshpreview.27.129

Laser-driven dynamic compression is used to study matters in extreme conditions. Warm Dense Matter (WDM) conditions, approximately defined at a solid density and temperatures between 0.1 and 10 eV, are created in materials under the laser-shock compression, of great current interest for high-energy density physics, planetary sciences, and inertial fusion energy research. At the WDM conditions, the micro-structure of material significantly influences the behavior and properties of material. X-ray free electron laser (XFEL) is a powerful tool to directly observe a structure and to reveal the time scale of the structural change under the dynamic high pressures. Here we present recent results of WDM experiments associated with strong shock equation of state and ultrafast observation of lattice dynamics.