Predicting the energetics of defects at T   0K

Estreicher SK; Sanati M

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Predicting the energetics of defects at T 0K

机译：预测T> 0K时的缺陷能量

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The first-principles theory of defects in semiconductors is very good at predicting most ground state properties of defects in periodic supercells at T = 0 K. Even though the total zero-point energy is ignored, these calculations lead to reliable geometries, energetics, densities, and local vibrational modes. However, much of the real world operates around room temperature, samples are annealed or exposed to various sources of energy which, ultimately, raise the temperature of the crystal. In this paper, we extend first-principles theory to finite temperatures by calculating explicitly the various contributions to the free energy (at constant volume). The emphasis in this paper is on the temperature and sample dependence of binding free energies. (c) 2006 Elsevier B.V. All rights reserved.

机译：半导体缺陷的第一性原理非常善于预测T = 0 K时周期超级电池中大多数缺陷的基态性质。即使忽略了总零点能量，这些计算也可得出可靠的几何形状，高能学，密度以及局部振动模式。但是，现实世界中的许多环境都是在室温下运行的，样品被退火或暴露于各种能源中，最终导致晶体温度升高。在本文中，我们通过显式计算对自由能（恒定体积）的各种贡献，将第一性原理扩展到有限温度。本文的重点是结合自由能的温度和样品依赖性。（c）2006 Elsevier B.V.保留所有权利。

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《Physica, B. Condensed Matter》 |2006年第0期|共5页
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Estreicher SK; Sanati M;
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theory; free energy; entropy; FUNCTIONAL PERTURBATION-THEORY; HEAT-CAPACITY; DENSITY; SYSTEMS;

机译：理论;自由能;熵;函数摄动理论;热容;密度;系统;

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1. Predicting the energetics of defects at T 0K [J] . Estreicher SK, Sanati M Physica, B. Condensed Matter . 2006,第0期

机译：预测T> 0K时的缺陷能量
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3. Predicted roles of defects on band offsets and energetics at CIGS (Cu(In,Ga)Se_2/CdS) solar cell interfaces and implications for improving performance [J] . Hai Xiao, William A. Goddard The Journal of Chemical Physics . 2014,第9期

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4. Predicting the energetics of defects at T > 0 K [C] . S.K. Estreicher, M. Sanati International Conference on Defects in Semiconductors . 2006

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7. Predicted roles of defects on band offsets and energetics at CIGS (Cu(In,Ga)Se_2/CdS) solar cell interfaces and implications for improving performance [O] . Xiao Hai, Goddard William A. III 2014

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Predicting the energetics of defects at T 0K

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