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一维非厄密光子晶格中分叉可调无衍射光传输
引用本文:刘振娟,王浩浩,代亚楠,张治青,王屹山,齐新元. 一维非厄密光子晶格中分叉可调无衍射光传输[J]. 光子学报, 2021, 50(4): 128-134
作者姓名:刘振娟  王浩浩  代亚楠  张治青  王屹山  齐新元
作者单位:西北大学 物理学院,西安 710027;中国科学院西安光学精密机械研究所 瞬态光学与光子技术国家重点实验室,西安 710119
基金项目:瞬态光学与光子学国家重点实验室开放研究基金(No.SKLST201805);国家自然科学基金(No.91950104)。
摘    要:理论计算和数值模拟了一维周期性复式光子晶格中光的分叉无衍射传输现象.当晶格满足退化的SSH模型时,波矢为±π的入射光将分裂为两束完全相同的对称无衍射光,且分叉夹角可通过耦合系数J来调节;在此基础上,通过微扰波导作用引入了调制相位?,当微扰满足宇称时间对称时,只要入射光波矢k与调制相位?之和为±π便能实现任意入射光波的无...

关 键 词:光子晶格  带隙结构  无衍射传输  光分束  分束器

Bifurcation-tunable Diffractionless Light Propagation in Onedimensional Non-Hermitian Photonic Lattice
LIU Zhenjuan,WANG Haohao,DAI Yanan,ZHANG Zhiqing,WANG Yishan,QI Xinyuan. Bifurcation-tunable Diffractionless Light Propagation in Onedimensional Non-Hermitian Photonic Lattice[J]. Acta Photonica Sinica, 2021, 50(4): 128-134
Authors:LIU Zhenjuan  WANG Haohao  DAI Yanan  ZHANG Zhiqing  WANG Yishan  QI Xinyuan
Affiliation:(School of Physics,Northwestern University,Xi'an 710027,China;State Key Laboratory of Transient Optics and Photonics,Xi'an Institute of Optics and Mechanics,Chinese Academy of Sciences,Xi'an 710119,China)
Abstract:The light bifurcation transmission without diffraction in one-dimensional periodic compound photonic lattice was studied theoretically and numerically.When the lattice equals to degenerated SuSchrieffer-Heeger model,the incident light with the wave number k=±πwill bifurcate into two symmetric branches without any diffraction and the angles between two beams can be controlled by the coupling J between two lattice sites.In addition,a modulation phaseφis introduced.When the nonHermitian perturbations satisfy the parity-time symmetry,the diffractionless light bifurcation phenomenon with any incident light wave can be realized as long as the incident wave vector k and the modulation phaseφrespect the expression k+φ=±π.Further studies have shown that the next-nearest coupling can control the transmission angle and power division of two branches.This research provides new ideas for the design of optical switches and future all-optical paths.
Keywords:Photonic lattice  Band structure  Diffractionless transmission  Bifurcation  Beam splitter
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