扩展LOD-FDTD方法以精确研究磁化石墨烯基结构的透射特性

2022 Photonics & Electromagnetics Research Symposium (PIERS) Pub Date : 2022-04-25 DOI:10.1109/piers55526.2022.9792844

Jian‐Yun Gao, Xiang-hua Wang

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摘要

本文对传统的两步局部一维时域有限差分法(LOD-FDTD)进行了扩展，以模拟静磁场偏置的石墨烯片。与最近发展的LOD-FDTD方法不同，该方法采用两步LOD-FDTD方法计算石墨烯表面电导率的各向同性部分，并对各向异性部分进行简单的额外计算。为了验证其准确性和效率，我们进行了数值实验，并计算了磁化后石墨烯片的总透射系数。结果表明，在计算时间几乎相同的情况下，本文提出的LOD-FDTD方法的计算结果比传统的两步LOD-FDTD方法更精确。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Extension of the LOD-FDTD Method to Accurately Investigate the Transmission Properties of the Magnetized Graphene-based Structures

In this paper, we make an extension of the conventional two-step locally one-dimensional finite-difference time-domain method (LOD-FDTD) to simulate the magnetostatic field biased graphene sheet. Unlike the LOD-FDTD method developed recently, the proposed one calculates the isotropic part of the surface conductivity of the graphene with the two-step LOD-FDTD method and a simple extra computation process for the anisotropic part. To check the accuracy and efficiency, we carried out numerical experiments and the total transmission coefficient of the magnetized graphene sheet were calculated. It is found that the results computed by our proposed LOD-FDTD method are more accurate than the conventional two-step LOD-FDTD method with almost the same computational time.

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2022 Photonics & Electromagnetics Research Symposium (PIERS)

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