| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 1519258 | Journal of Physics and Chemistry of Solids | 2006 | 8 Pages |
We calculate the static lattice energy (cold curve), phonon spectrum, and electronic density of states of compressed Cu from electronic structure theory. In the regime 1⩾V/V0⩾0.61⩾V/V0⩾0.6, our ab initio thermal free energy is combined with an empirical static lattice energy based on the measured volume, bulk modulus, and Hugoniot, to give a very accurate complete equation of state. Results are given as analytic expressions for the free energy and a table of P(V,T)P(V,T). The inferred room temperature isotherm supports the proposed modification of the ruby standard of Dewaele et al. [Phys. Rev. B 70 (2004) 094112]. At high compressions (V/V0≲0.5)(V/V0≲0.5), electronic structure theory provides a better estimate of the static lattice energy and room temperature isotherm than extrapolating from the Hugoniot. We give a theoretical room temperature isotherm in the terapascal regime.
