Real-space finite-difference method for conductance calculations

Petr A. Khomyakov; Geert Brocks

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Real-space finite-difference method for conductance calculations

机译：电导计算的实空间有限差分法

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We present a general method for calculating coherent electronic transport in quantum wires and tunnel junctions. It is based upon a real-space high-order finite-difference representation of the single particle Harnil-tonian and wave functions. Landauer's formula is used to express the conductance as a scattering problem. Dividing space into a scattering region and left and right ideal electrode regions, this problem is solved by wave function matching in the boundary zones connecting these regions. The method is tested on a model tunnel junction and applied to sodium atomic wires. In particular, we show that using a high-order finite-difference approximation of the kinetic energy operator leads to a high accuracy at moderate computational costs.

机译：我们提出了一种计算量子线和隧道结中相干电子传输的通用方法。它基于单粒子Harnil-tonian函数和波函数的实空间高阶有限差分表示。 Landauer公式用于将电导表示为散射问题。将空间分为散射区域和左右理想电极区域，此问题通过在连接这些区域的边界区域中进行波函数匹配来解决。该方法在模型隧道结上进行了测试，并应用于钠原子线。尤其是，我们表明，使用动能算子的高阶有限差分近似法可以在中等计算成本的情况下实现高精度。

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来源
《Physical review. B, Condensed Matter And Materials Physics》 |2004年第19期|p.195402.1-195402.13|共13页
作者
Petr A. Khomyakov; Geert Brocks;
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作者单位

Computational Materials Science, Faculty of Science and Technology, and MESA~+ Research Institute, University of Twente, P. O. Box 217, 7500 AE Enschede, The Netherlands;

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原文格式 PDF
正文语种 eng
中图分类固体物理学;
关键词
electronic transport in nanoscale materials and structures; electronic transport in interface structures; methods of electronic structure calculations; nanoelectronic devices;

机译：纳米材料和结构中的电子传输;界面结构中的电子传输;电子结构计算方法;纳米电子器件;

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7. Real-space finite-difference method for conductance calculations [O] . Khomyakov, Petr, Brocks, G. 2004

机译：电导计算的实空间有限差分法

Real-space finite-difference method for conductance calculations

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