Equation of State of CO_{2} Shock Compressed to 1 TPa.

L E Crandall J R Rygg D K Spaulding T R Boehly S Brygoo P M Celliers J H Eggert D E Fratanduono B J Henderson M F Huff R Jeanloz A Lazicki M C Marshall D N Polsin M Zaghoo M Millot G W Collins

Phys Rev Lett

Laboratory for Laser Energetics, Rochester, New York 14623, USA.

Published: October 2020

Equation-of-state (pressure, density, temperature, internal energy) and reflectivity measurements on shock-compressed CO_{2} at and above the insulating-to-conducting transition reveal new insight into the chemistry of simple molecular systems in the warm-dense-matter regime. CO_{2} samples were precompressed in diamond-anvil cells to tune the initial densities from 1.35 g/cm^{3} (liquid) to 1.74 g/cm^{3} (solid) at room temperature and were then shock compressed up to 1 TPa and 93 000 K. Variation in initial density was leveraged to infer thermodynamic derivatives including specific heat and Gruneisen coefficient, exposing a complex bonded and moderately ionized state at the most extreme conditions studied.

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http://dx.doi.org/10.1103/PhysRevLett.125.165701	DOI Listing

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