Dynamic compression experiments (shock wave and shockless compression) subject materials to unique conditions (very large compressions, high temperatures, and large deformations) on very short time scales (picosecond to microsecond), resulting in a rich array of physical and chemical changes. Research activities related to the dynamic compression of materials are extremely diverse and challenging. As such
Shock Compression Lab UC Davis Earth and Planetary Sciences
Nature Physics - Online this week: An X-ray diffraction method using a free-electron laser lays bare the process for laser-driven dynamic shock compression. Link in bio: go.nature.com/dynamicshock #physics #science #naturephysics #beautifulscience #xfel
Research, Shock Physics
PDF) Shock compression and dynamic fragmentation of geological materials
Breaking the strongest chemical bonds with laser shock compression
media.springer/full/springer-static/imag
Basics of Dynamic Compression (Chapter 2) - Ultracondensed Matter by Dynamic Compression
Home Shock Waves
Basics of Dynamic Compression (Chapter 2) - Ultracondensed Matter by Dynamic Compression
Basics of Dynamic Compression (Chapter 2) - Ultracondensed Matter by Dynamic Compression
PDF) Quasi-isentropic compression using functionally graded
Andrew Krygier - Lawrence Livermore National Laboratory