Shock temperature in calcite (CaCO3) at 95-160 GPa

Details Shock temperature in calcite (CaCO3) at 95-160 GPa Shock temperature in calcite (CaCO3) at 95-160 GPa

Jul 2002

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2002e%26psl.201....1g&link_type=abstract

Earth and Planetary Science Letters, Volume 201, Issue 1, p. 1-12.

Computer Science

8

Scientific paper

The temperatures induced in crystalline calcite (CaCO3) upon planar shock compression (95-160 GPa) are reported from two-stage light gas gun experiments. Temperatures of 3300-5400 K are obtained by fitting six-channel optical pyrometer radiances in the 450-900 nm range to the Planck gray-body radiation law. Thermodynamic calculations demonstrate that these temperatures are some 400-1350 K lower than expected for vibronic excitations of the lattice with a 3R/mole-atom specific heat (R is gas constant). The temperature deficit along the Hugoniot is larger than that expected from only melting. In addition to melting, it appears likely that shock-induced decomposition of calcite occurs behind the shock front. We modeled disproportionation of calcite into CaO (solid) plus CO2 (gas). For temperature calculations, specific heat at constant volume for 1 mole of CO2 is taken to be 6.7R as compared to 9R in the solid state; whereas a mole of calcite and a mole of CaO have their solid state values 15R and 6R, respectively. Calculations suggest that the calcite decomposes to CaO and CO2 at ~110+/-10 GPa along the Hugoniot. Recent reanalysis of earlier VISAR measurements of particle velocity profiles indicates that calcite shocked to 18 GPa undergoes disproportionation at much lower pressures upon isentropic expansion.

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