论文信息 - Shock temperature measurements in Mg2SiO4 and SiO2 at high pressures

Shock temperature measurements in Mg2SiO4 and SiO2 at high pressures

Temperatures in the high pressure shock state have been determined by measurement of optical radiation from pure samples of forsterite (Mg2SiO4), α—quartz, and fused silica. Shock waves of known amplitude were produced by tantalum flyer impact using a two-stage light gas gun. Shock pressures in the ranges 150-175 GPa and 70-115 GPa for Mg2SiO4 and SiO2 respectively were achieved, and temperatures in the range 4500-6800 K were measured. The observed temperatures in Mg2SiO4 are consistent with the occurrence of a shock-induced phase transition with a transition energy of ∼ 1.5 MJ/kg. Measured Hugoniot temperatures versus pressure in both fused and crystalline SiO2 shocked to the stishovite regime suggest the occurrence of a previously unknown transition, beginning at pressures of approximately 107 GPa and 70 GPa for α—quartz and fused quartz, respectively. The energies and temperatures appear to be consistent with the onset of melting of stishovite under shock loading.

Gregory A. Lyzenga | Thomas J. Ahrens | G. Lyzenga | T. Ahrens

[1] Jerry Wackerle,et al. Shock‐Wave Compression of Quartz , 1962 .

[2] G. Lyzenga,et al. Multiwavelength optical pyrometer for shock compression experiments. , 1979, The Review of scientific instruments.

[3] G. Davies,et al. Equations of state and phase equilibria of stishovite and a coesitelike phase from shock‐wave and other data , 1972 .

[4] L. Liu. A Fluorite Isotype of SnO2 and a New Modification of TiO2: Implications for the Earth's Lower Mantle. , 1978, Science.

[5] Thomas J. Ahrens,et al. Shock compression of feldspars , 1969 .

[6] S. M. Stishov,et al. The thermodynamics of melting of simple substances , 1975 .

[7] S. P. Marsh,et al. On the equation of state of stishovite , 1963 .

[8] A. Ringwood. Composition and petrology of the earth's mantle , 1975 .

[9] Thomas J. Ahrens,et al. Shock wave compression of single-crystal forsterite , 1979 .

[10] R. Mcqueen,et al. Compression of Solids by Strong Shock Waves , 1958 .

[11] S. P. Marsh,et al. Hugoniot equation of state of twelve rocks , 1967 .

[12] Don L. Anderson,et al. Equations of State and Crystal Structures of High-Pressure Phases of Shocked Silicates and Oxides , 1969 .

[13] Raymond Jeanloz,et al. Convection, composition, and the thermal state of the lower mantle , 1979 .

[14] L. V. Al’tshuler. Reviews of Topical Problems: Use of Shock Waves in High-Pressure Physics , 1965 .

[15] R. Grover. Liquid Metal Equation of State Based on Scaling , 1971 .