周期性石墨烯盘表面拓扑边界传输态研究  被引量：1

作　　者：廖秋雨 张煜熔 吴智杭 叶婷 张克非[2] LIAO Qiuyu;ZHANG Yurong;WU Zhihang;YE Ting;ZHANG Kefei(School of Science, Southwest University of Science and Technology, Mianyang 621010, China;School of Computer Science and Technology, Southwest University of Science and Technology, Mianyang 621010, China)

机构地区：[1]西南科技大学理学院,绵阳621010 [2]西南科技大学计算机科学与技术学院,绵阳621010

出　　处：《激光技术》2021年第5期642-646,共5页Laser Technology

基　　金：四川省大学生创新创业训练基金资助项目(S202010619076);西南科技大学校级重点教育教学改革与研究项目(19xnzd21);四川省高等教育人才培养质量和教学改革基金资助项目(JG2018-507);西南科技大学素质类教改专项基金资助项目(19szjg03);西南科技大学大学生创新基金资助项目(CX20-029)。

摘　　要：为了提高光学器件的传输性能,推动微型光学器件及大规模集成光路的发展,提出了一种新型2-D石墨烯等离子体光子晶体结构。通过周期性排列蜂窝状的石墨烯盘,调整一个周期内两个石墨烯圆盘的直径,打开狄拉克点;基于有限元法,运用COMSOL仿真光场传播、计算光子带隙,打破时间反演对称性,实现能带拓扑效应。结果表明,该设计的晶格常数等均处于纳米量级,相较于自由空间波长减小近30倍,具有小型化、高集成化等优势;该结构可在15.3THz~15.8THz频段范围进行动态调制。此研究为设计具有鲁棒性的纳米量级光子器件提供了参考,有望在波导频率的调控、光开关等领域拓展应用。In order to improve the transmission performance of optical devices and promote the development of micro-optical devices and large-scale integrated optical circuits,a new type of 2-D graphene plasma photonic crystal structure was proposed.By periodically arranging the honeycomb-shaped graphene discs,the diameter of two graphene discs in a period was adjusted to open the Dirac point;based on the finite element method,the propagation of the light field was simulated by COMSOL and the photonic band gap was then calculated.Through breaking the time inversion symmetry,the band topology effect was achieved.The results show that the lattice constants of this designed are all on the order of nanometers,which is nearly 30 times smaller than the free space wavelength with the advantages of miniaturization and high integration.The structure can be dynamically modulated in the 15.3THz~15.8THz frequency range.This research provides a reference for the design of robust nano-scale photonic devices,and is expected to be applied to waveguide frequency control,optical switches and other fields.

关 键 词：光电子学 石墨烯 直径 光子晶体 能带拓扑效应 

分 类 号：TN29[电子电信—物理电子学]