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Melting curve of silicon to 15 GPa determined by two-dimensional angle-dispersive diffraction using a Kawai-type apparatus with X-ray transparent sintered diamond anvils |
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| Authors: | Atsushi Kubo Yanbin Wang Takeyuki Uchida Norimasa Nishiyama Thomas S. Duffy |
| Affiliation: | a Department of Geosciences, Princeton University, Princeton, NJ 08544, USA b Center for Advanced Radiation Sources, University of Chicago, Chicago, IL 60637, USA c Department of Physics, New Mexico State University, Las Cruces, NM 88003, USA |
| Abstract: | The melting curve of silicon has been determined up to 15 GPa using a miniaturized Kawai-type apparatus with second-stage cubic anvils made of X-ray transparent sintered diamond. Our results are in good agreement with the melting curve determined by electrical resistivity measurements [V.V. Brazhkin, A.G. Lyapin, S.V. Popova, R.N. Voloshin, Nonequilibrium phase transitions and amorphization in Si, Si/GaAs, Ge, and Ge/GaSb at the decompression of high-pressure phases, Phys. Rev. B 51 (1995) 7549] up to the phase I (diamond structure)—phase II (β-tin structure)—liquid triple point. The triple point of phase XI (orthorhombic, Imma)—phase V (simple hexagonal)—liquid has been constrained to be at 14.4(4) GPa and 1010(5) K. These results demonstrate that the combination of X-ray transparent anvils and monochromatic diffraction with area detectors offers a reliable technique to detect melting at high pressures in the multianvil press. |
| Keywords: | C. High pressure C. X-ray diffraction D. Phase transitions D. Phase equilibria |
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