Role of complex energy landscapes and strains in multiscale inhomogeneities in perovskite manganites

K. H. Ahn; T. F. Seman; T. Lookman; A. R. Bishop

doi:10.1103/PhysRevB.88.144415

Role of complex energy landscapes and strains in multiscale inhomogeneities in perovskite manganites

K. H. Ahn
, T. F. Seman
, T. Lookman
, A. R. Bishop

New Jersey Institute of Technology
Los Alamos National Laboratory Theoretical Division

科研成果: 期刊稿件 › 文章 › 同行评审

18 引用（Scopus）

摘要

We analyze the essential role played by complex energy landscapes in the nanometer- to micron-scale inhomogeneities observed in perovskite manganites using a model expressed in terms of symmetrized atomic-scale lattice distortion modes. We also examine the stability of large metal and insulator domains in the absence of defects. Our results demonstrate that an intrinsic mechanism, which involves long-range interactions between strain fields, the Peierls-Nabarro energy barrier, and complex energy landscapes with multiple metastable states, rather than an extrinsic mechanism such as chemical randomness, is responsible for the inhomogeneity in perovskite manganites.

源语言	英语
文章编号	144415
期刊	Physical Review B - Condensed Matter and Materials Physics
卷	88
期	14
DOI	https://doi.org/10.1103/PhysRevB.88.144415
出版状态	已出版 - 17 10月 2013
已对外发布	是

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AU - Seman, T. F.

AU - Lookman, T.

AU - Bishop, A. R.

PY - 2013/10/17

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N2 - We analyze the essential role played by complex energy landscapes in the nanometer- to micron-scale inhomogeneities observed in perovskite manganites using a model expressed in terms of symmetrized atomic-scale lattice distortion modes. We also examine the stability of large metal and insulator domains in the absence of defects. Our results demonstrate that an intrinsic mechanism, which involves long-range interactions between strain fields, the Peierls-Nabarro energy barrier, and complex energy landscapes with multiple metastable states, rather than an extrinsic mechanism such as chemical randomness, is responsible for the inhomogeneity in perovskite manganites.

AB - We analyze the essential role played by complex energy landscapes in the nanometer- to micron-scale inhomogeneities observed in perovskite manganites using a model expressed in terms of symmetrized atomic-scale lattice distortion modes. We also examine the stability of large metal and insulator domains in the absence of defects. Our results demonstrate that an intrinsic mechanism, which involves long-range interactions between strain fields, the Peierls-Nabarro energy barrier, and complex energy landscapes with multiple metastable states, rather than an extrinsic mechanism such as chemical randomness, is responsible for the inhomogeneity in perovskite manganites.

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Role of complex energy landscapes and strains in multiscale inhomogeneities in perovskite manganites

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