First-principles investigation of 180-degree domain walls in BaTiO_3

D. J. Singh; D. Vanderbilt; David Vanderbilt; J. Fousek; J. Fousek; J. Fousek; J. Padilla; L. N. Bulaevskii; M. E. Lines; M. Tanaka; R. E. Cohen; R. E. Cohen; R. E. Cohen; R. Resta; S. I. Yakunin; V. A. Zhirnov; W. J. Merz; W. N. Lawless; W. Zhong; W. Zhong; W. Zhong; W. Zhong

research

First-principles investigation of 180-degree domain walls in BaTiO_3

Authors: D. J. Singh
D. Vanderbilt
David Vanderbilt
J. Fousek
J. Fousek
J. Fousek
J. Padilla
L. N. Bulaevskii
M. E. Lines
M. Tanaka
R. E. Cohen
R. E. Cohen
R. E. Cohen
R. Resta
S. I. Yakunin
V. A. Zhirnov
W. J. Merz
W. N. Lawless
W. Zhong
W. Zhong
W. Zhong
W. Zhong
Publication date: 21 September 1995
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We present a first-principles study of 180-degree ferroelectric domain walls in tetragonal barium titanate. The theory is based on an effective Hamiltonian that has previously been determined from first-principles ultrasoft-pseudopotential calculations. Statistical properties are investigated using Monte Carlo simulations. We compute the domain-wall energy, free energy, and thickness, analyze the behavior of the ferroelectric order parameter in the interior of the domain wall, and study its spatial fluctuations. An abrupt reversal of the polarization is found, unlike the gradual rotation typical of the ferromagnetic case.Comment: Revtex (preprint style, 13 pages) + 3 postscript figures. A version in two-column article style with embedded figures is available at http://electron.rutgers.edu/~dhv/preprints/index.html#pad_wal

Similar works

Full text

Available Versions

Crossref

info:doi/10.1103%2Fphysrevb.53...

Last time updated on 02/01/2020