Regensburg 2013 – scientific programme
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HL: Fachverband Halbleiterphysik
HL 64: Focus Session: Frontiers of electronic structure theory V (O, joinly with HL, TT)
HL 64.6: Talk
Wednesday, March 13, 2013, 17:30–17:45, H36
Potential energy surface of BaTiO3 explored with density-functional theory and classical force fields — •Joseph Fallon1, David McComb2, Arash Mostofi1, and Paul Tangney1 — 1Imperial College London, London, UK — 2The Ohio State University, Columbus, USA
Much is known about the electronic structure of BaTiO3, its phonon dispersions, and the energetics of its long wavelength lattice distortions. However, there is much more to learn about the potential energy surface (PES) on which the atoms move. We study the PES using a combination of density functional-theory (DFT) and a polarisable ionic model of interatomic bonding. Our force field is in close agreement with DFT on structures, the PES, and phonon frequencies and allows accurate large scale atomistic simulations of domain structures and dynamics to be performed. A key advantage of an atomistic model over the coarse grained models that are often used to simulate domain dynamics is that it allows the simulation of heterogeneous materials (e.g. grain boundaries, point defects). However, we also point out some features of the PES, which may be important to domain dynamics, that effective Hamiltonians based on the transverse optic soft mode eigenvector and the local strain fail to capture.