Strontium titanate(SrTiO_(3))is a typical perovskite-type ceramic oxide and studying its high-pressure phases are critical to understand the ferroelastic phase transition.SrTiO_(3)also can be used as an important analog of davemaoite(CaSiO_(3))to understand the compositional and velocity structure of the Earth’s interior.However,the high-pressure studies on the cubic-to-tetragonal phase transition pressure and elastic properties remain unclear for SrTiO_(3).Here,we investigate the phase transition and elasticity of single-crystal SrTiO_(3)by Raman and Brillouin scattering combined with diamond anvil cell.The acoustic velocities of single-crystal SrTiO_(3)and the independent elastic constants of cubic and tetragonal SrTiO_(3)are determined up to 27.5 GPa at room temperature.This study indicates that C_(11),C_(12),and C_(44)exhibit abnormal changes at 10.3 GPa,which is related to the cubicto-tetragonal phase transition.Interestingly,a significant softening on shear modulus and a large anisotropy of shear wave splitting(A_(S)^(PO))jump are observed at 10.3 GPa.Using obtained elastic constants,the coefficients of the Landau potential are calculated to understand the phase transition between cubic and tetragonal.The calculated coefficients of the Landau potential are,λ_(2)=3.12×10^(-2)GPa,λ_(4)=-2.02×10^(-2)GPa,B~*=1.34×10^(-4)GPa and B=1.66×10^(-4)GPa.The elastic results have profound implications in understanding the structure of the Earth’s interior and indicate that the presence of tetragonal Ti-bearing CaSiO_(3)helps to explain the large APO S of the Earth’s mid-mantle.
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机译:High-resolution structural studies of ultra-thin magnetic, transition metal overlayers and two-dimensional transition metal oxides using synchrotron radiation