New tight-binding method for simulation of defect configurations, creation and diffusion mechanisms in solids: application to silicon

机译：模拟固体中缺陷构型，产生和扩散机制的新紧密结合方法：在硅上的应用

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This paper presents the self-consistent tight-binding method of new generation which, unlike other tight-binding methods, allows one to calculate structural energies of multiatomic systems (molecules, clusters, defects in solids) and their spectroscopic energies in the framework of the same computational scheme and with comparable accuracy. Reliability of the method is illustrated considering defect state problems in crystalline and amorphous silicon (electron-enhanced-atomic diffusion, metastable defect creation, defects with effective-negative correlation energies, etc.) and comparing obtained results with ab initio calculations and experimental data.

机译：本文介绍了新一代的自洽紧密结合方法，与其他紧密结合方法不同，该方法可以计算多原子系统的结构能（分子，团簇，固体缺陷）及其光谱能量。相同的计算方案，并且具有相当的精度。说明了该方法的可靠性，其中考虑了晶体和非晶硅中的缺陷状态问题（电子增强的原子扩散，亚稳态缺陷产生，具有有效负相关能的缺陷等），并将获得的结果与从头算和实验数据进行了比较。

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《Silicon front-end technology-materials processing and modelling》|1998年|p.205-211|共7页
会议地点 San Francisco CA(US)
作者
Zokirkhon M. KHAKIMOV;
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原文格式 PDF
正文语种 eng
中图分类无线电电子学、电信技术;
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New tight-binding method for simulation of defect configurations, creation and diffusion mechanisms in solids: application to silicon

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