Jean-Pierre Michenaud scite author profile

Based on recent first-principles computations in perovskite compounds, especially BaTiO3, we examine the significance of the Born effective charge concept and contrast it with other atomic charge definitions, either static (Mulliken, Bader...) or dynamical (Callen, Szigeti...). It is shown that static and dynamical charges are not driven by the same underlying parameters. A unified treatment of dynamical charges in periodic solids and large clusters is proposed. The origin of the difference between static and dynamical charges is discussed in terms of local polarizability and delocalized transfers of charge : local models succeed in reproducing anomalous effective charges thanks to large atomic polarizabilities but, in ABO3 compounds, ab initio calculations favor the physical picture based upon transfer of charges. Various results concerning barium and strontium titanates are presented. The origin of anomalous Born effective charges is discussed thanks to a band-by-band decomposition which allows to identify the displacement of the Wannier center of separated bands induced by an atomic displacement. The sensitivity of the Born effective charges to microscopic and macroscopic strains is examined. Finally, we estimate the spontaneous polarization in the four phases of barium titanate.

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Transport properties of Bi-RICH Bi-Sb alloys

Lenoir

Cassart

Michenaud

et al. 1996

Journal of Physics and Chemistry of Solids

257

191

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First-principles study of the electronic properties of simple hexagonal graphite

1992

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First-principles study of the stacking effect on the electronic properties of graphite(s)

Charlier

Gonze

Michenaud

1994

Carbon

214

139

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