Anharmonic free energy of lattice vibrations in fcc crystals from a mean-field bond

Thomas D. Swinburne; Jan Janssen; Mira Todorova; Gideon Simpson; Petr Plechac; Mitchell Luskin; Joerg Neugebauer

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Anharmonic free energy of lattice vibrations in fcc crystals from a mean-field bond

机译：来自平均场合键的FCC晶体中的晶格振动的无谐波振动

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It has recently been shown that the ab initio anharmonic free energy of fcc crystals can be approximated to meV/atom accuracy by a lattice of anharmonic nearest-neighbor bonds, where the bonding potential can be efficiently parametrized from the target system. We develop a mean-field approach for the free energy of a general bond lattice, analytically accounting for strong bond-bond correlations while enforcing material compatibility and thermodynamic self-consistency. Applying our fundamentally anharmonic model to fcc crystals yields free energies within meV/atom of brute force thermodynamic integration for core seconds of computational effort. Potential applications of this approach in computational materials science are discussed.

机译：最近已显示FCC晶体的AB Initio Anharmonic自由能量可以通过anharmonic最近邻接键的晶格来近似于MeV /原子精度，其中可以从目标系统有效地参加键合电位。我们开发了一般债券格子的自由能的平均场方法，分析核对强的粘结相关性，同时强制实施材料兼容性和热力学自我稠度。将我们的基本上的Anharmonic模型应用于FCC晶体，在核心秒的核心秒的核心秒集中的MEV /原子内产生自由能量。讨论了这种方法在计算材料科学中的潜在应用。

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《Physical review.B.Condensed matter and materials physics》 |2020年第10期|100101.1-100101.5|共5页
作者
Thomas D. Swinburne; Jan Janssen; Mira Todorova; Gideon Simpson; Petr Plechac; Mitchell Luskin; Joerg Neugebauer;
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Aix-Marseille Universite CNRS CINaM UMR 7325 Campus de Luminy 13288 Marseille France;

Department of Computational Materials Design Max-Planck-Insitut fuer Eisenforschung GmbH Max-Planck-Strasse 1 D-40237 Duesseldorf Germany;

Department of Computational Materials Design Max-Planck-Insitut fuer Eisenforschung GmbH Max-Planck-Strasse 1 D-40237 Duesseldorf Germany;

Department of Mathematics Drexel University Philadelphia Pennsylvania 19104 USA;

Department of Mathematical Sciences University of Delaware Newark Delaware 19716 USA;

School of Mathematics University of Minnesota Minneapolis Minnesota 55455 USA;

Department of Computational Materials Design Max-Planck-Insitut fuer Eisenforschung GmbH Max-Planck-Strasse 1 D-40237 Duesseldorf Germany;

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机译：Bi2Se3单晶的晶格振动的AnhArmonicity
3. Investigating the anharmonicity of lattice vibrations in water-containing molecular crystals through the terahertz spectroscopy of l-serine monohydrate [J] . King M.D., Buchanan W.D., Korter T.M. The journal of physical chemistry, A. Molecules, spectroscopy, kinetics, environment, & general theory . 2010,第35期

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5. VIBRATIONAL RELAXATION OF ANHARMONIC OSCILLATORS WITH VIBRATION-VIBRATIONAND VIBRATION-TRANSLATION ENERGY EXCHANGE. [D] . MAILLIE, FRANCIS HUGH. 1969

机译：振动振动和振动翻译能量交换的无振动振荡器的振动松弛。
6. In Situ Assessment of Intrinsic Strength of X-I⋯OA-Type Halogen Bonds in Molecular Crystals with Periodic Local Vibrational Mode Theory [O] . Yunwen Tao, Yue Qiu, Wenli Zou, 2020

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7. Anharmonic free energy of lattice vibrations in fcc crystals from a mean-field bond [O] . Thomas D. Swinburne, Jan Janssen, Mira Todorova, 2020

机译：来自平均场合键的FCC晶体中的晶格振动的无谐波振动
8. The Covalent Bond in Crystals. Iv. Lattice Deformation Energies [R] . Phillips, J. C. 1967

机译：晶体中的共价键。四。晶格变形能量

Anharmonic free energy of lattice vibrations in fcc crystals from a mean-field bond

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