Density functional study of weak ferromagnetism in a thick BiCrO 3 film

Jun Ding; Yugui Yao; Leonard Kleinman

doi:10.1063/1.3583649

Density functional study of weak ferromagnetism in a thick BiCrO ₃ film

Jun Ding, Yugui Yao^*, Leonard Kleinman

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

7 Citations (Scopus)

Abstract

Very thick films of BiCrO ₃ have been grown on a SrTiO ₃ substrate, maintaining a tetragonal lattice up to thicknesses of 14,000 Å. Assuming that we can treat films of this thickness as bulk crystals, we first calculated the experimentally undetermined atomic positions within the unit cell with the measured lattice constant of the film, and then relaxed the lattice constants along with the atomic positions. All of the calculations result in an antiferroelectric crystal with the Pnma space group with noncollinear Bi displacements. We find G-type antiferromagnetism with a spin-orbit induced weak ferromagnetic component; however, the weak ferromagnetic component can be canceled if the antiferromagnetic spins are oriented along a particular one of the three twofold rotation axes.

Original language	English
Article number	103905
Journal	Journal of Applied Physics
Volume	109
Issue number	10
DOIs	https://doi.org/10.1063/1.3583649
Publication status	Published - 15 May 2011
Externally published	Yes

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title = "Density functional study of weak ferromagnetism in a thick BiCrO 3 film",

abstract = "Very thick films of BiCrO 3 have been grown on a SrTiO 3 substrate, maintaining a tetragonal lattice up to thicknesses of 14,000 {\AA}. Assuming that we can treat films of this thickness as bulk crystals, we first calculated the experimentally undetermined atomic positions within the unit cell with the measured lattice constant of the film, and then relaxed the lattice constants along with the atomic positions. All of the calculations result in an antiferroelectric crystal with the Pnma space group with noncollinear Bi displacements. We find G-type antiferromagnetism with a spin-orbit induced weak ferromagnetic component; however, the weak ferromagnetic component can be canceled if the antiferromagnetic spins are oriented along a particular one of the three twofold rotation axes.",

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T1 - Density functional study of weak ferromagnetism in a thick BiCrO 3 film

AU - Ding, Jun

AU - Yao, Yugui

AU - Kleinman, Leonard

PY - 2011/5/15

Y1 - 2011/5/15

N2 - Very thick films of BiCrO 3 have been grown on a SrTiO 3 substrate, maintaining a tetragonal lattice up to thicknesses of 14,000 Å. Assuming that we can treat films of this thickness as bulk crystals, we first calculated the experimentally undetermined atomic positions within the unit cell with the measured lattice constant of the film, and then relaxed the lattice constants along with the atomic positions. All of the calculations result in an antiferroelectric crystal with the Pnma space group with noncollinear Bi displacements. We find G-type antiferromagnetism with a spin-orbit induced weak ferromagnetic component; however, the weak ferromagnetic component can be canceled if the antiferromagnetic spins are oriented along a particular one of the three twofold rotation axes.

AB - Very thick films of BiCrO 3 have been grown on a SrTiO 3 substrate, maintaining a tetragonal lattice up to thicknesses of 14,000 Å. Assuming that we can treat films of this thickness as bulk crystals, we first calculated the experimentally undetermined atomic positions within the unit cell with the measured lattice constant of the film, and then relaxed the lattice constants along with the atomic positions. All of the calculations result in an antiferroelectric crystal with the Pnma space group with noncollinear Bi displacements. We find G-type antiferromagnetism with a spin-orbit induced weak ferromagnetic component; however, the weak ferromagnetic component can be canceled if the antiferromagnetic spins are oriented along a particular one of the three twofold rotation axes.

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Density functional study of weak ferromagnetism in a thick BiCrO ₃ film

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