Variation in phase diagrams of strained (011) epitaxial BaTiO3 thin films

Phenomenological theory based on sixth-order and eighth-order potentials are used to investigate the effect of variation in free energy coefficients and material constants on phase stability of single-domain (011)-oriented epitaxial BaTiO3 subject to both biaxial and uniaxial substrate constraints....

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Published in	Physica. B, Condensed matter Vol. 540; pp. 43 - 50
Main Authors	Wang, Fei, Ma, Wenhui
Format	Journal Article
Language	English
Published	Amsterdam Elsevier B.V 01.07.2018 Elsevier BV
Subjects	Anisotropy Barium titanates Coefficient of variation Computation Dependence Elastic properties Electrostriction Epitaxial strain Ferroelectric materials Ferroelectric thin films Ferroelectricity Ferroelectrics Free energy Phase diagrams Phase stability Phase transition Phase transitions Phenomenological theory Plane strain Substrates Thin films Phenomenological theory Epitaxial strain Ferroelectric thin films Phase transition
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ISSN	0921-4526 1873-2135
DOI	10.1016/j.physb.2018.04.021

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Abstract	Phenomenological theory based on sixth-order and eighth-order potentials are used to investigate the effect of variation in free energy coefficients and material constants on phase stability of single-domain (011)-oriented epitaxial BaTiO3 subject to both biaxial and uniaxial substrate constraints. Relative size of a variety of ferroelectric regions in the computed misfit strain phase diagrams is systematically examined. The computed Curie phase transition and subsequent polarization rotation and formation of low-symmetry monoclinic structures are dependent on the selection of potentials and variation in electrostrictive and elastic constants, and such dependence is found to be closely associated with in-plane strain anisotropy. •For (011) epitaxial film, new phase transition forbidden in (001) film is allowed.•Misfit strain phase diagrams are computed using both 6th- and 8th-order potentials.•Effect of variation in material constants on phase stability is investigated.
AbstractList	Phenomenological theory based on sixth-order and eighth-order potentials are used to investigate the effect of variation in free energy coefficients and material constants on phase stability of single-domain (011)-oriented epitaxial BaTiO3 subject to both biaxial and uniaxial substrate constraints. Relative size of a variety of ferroelectric regions in the computed misfit strain phase diagrams is systematically examined. The computed Curie phase transition and subsequent polarization rotation and formation of low-symmetry monoclinic structures are dependent on the selection of potentials and variation in electrostrictive and elastic constants, and such dependence is found to be closely associated with in-plane strain anisotropy. Phenomenological theory based on sixth-order and eighth-order potentials are used to investigate the effect of variation in free energy coefficients and material constants on phase stability of single-domain (011)-oriented epitaxial BaTiO3 subject to both biaxial and uniaxial substrate constraints. Relative size of a variety of ferroelectric regions in the computed misfit strain phase diagrams is systematically examined. The computed Curie phase transition and subsequent polarization rotation and formation of low-symmetry monoclinic structures are dependent on the selection of potentials and variation in electrostrictive and elastic constants, and such dependence is found to be closely associated with in-plane strain anisotropy. •For (011) epitaxial film, new phase transition forbidden in (001) film is allowed.•Misfit strain phase diagrams are computed using both 6th- and 8th-order potentials.•Effect of variation in material constants on phase stability is investigated.
Author	Ma, Wenhui Wang, Fei
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SubjectTerms	Anisotropy Barium titanates Coefficient of variation Computation Dependence Elastic properties Electrostriction Epitaxial strain Ferroelectric materials Ferroelectric thin films Ferroelectricity Ferroelectrics Free energy Phase diagrams Phase stability Phase transition Phase transitions Phenomenological theory Plane strain Substrates Thin films
Title	Variation in phase diagrams of strained (011) epitaxial BaTiO3 thin films
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