First-principles calculations of the ferroelastic transition between rutile-type and CaCl 2 -type SiO 2 at high pressures
Kyoto University · Japan Fine Ceramics Center
Abstract
The tetragonal to orthorhombic ferroelastic phase transition between rutile- and ${\text{CaCl}}_{2}$-type ${\text{SiO}}_{2}$ at high pressures is studied using first-principles calculations and the Landau free-energy expansion. The phase transition is systematically investigated in terms of characteristic phonon modes with ${\text{B}}_{1g}$ and ${\text{A}}_{g}$ symmetries, shear moduli, transverse-acoustic mode, rotation angle of the ${\text{SiO}}_{6}$ octahedra, spontaneous symmetry-breaking and volume strains, and enthalpy. The results show that these physical behaviors at the transition are well described using the Landau free-energy expansion parametrized by the first-principles calculations.
Citation impact
- FWCI
- 22.54
- Percentile
- 100%
- References
- 34
Authors
3Topics & keywords
- Tetragonal crystal system
- Phase transition
- Condensed matter physics
- Materials science
- Energy (signal processing)
- Orthorhombic crystal system
- Rutile
- Octahedron
- Affordable and clean energy