Bound vortex light in an emulated topological defect in photonic lattices

Topology have prevailed in a variety of branches of physics. And topological defects in cosmology are speculated akin to dislocation or disclination in solids or liquid crystals. With the development of classical and quantum simulation, such speculative topological defects are well-emulated in a var...

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Bibliographic Details
Published in:Light, science & applications science & applications, 2022-08, Vol.11 (1), p.243-243, Article 243
Main Authors: Sheng, Chong, Wang, Yao, Chang, Yijun, Wang, Huiming, Lu, Yongheng, Yang, Yingyue, Zhu, Shining, Jin, Xianmin, Liu, Hui
Format: Article
Language:English
Subjects:
639/624/1075/1079
639/624/400/1105
Cosmology
Crystals
Defects
Design
Graphene
Gravitational waves
Laboratories
Lasers
Light
Microwaves
Optical and Electronic Materials
Optical Devices
Optics
Photonics
Photons
Physics
Physics and Astronomy
RF and Optical Engineering
Theory of relativity
Vortices
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Summary:Topology have prevailed in a variety of branches of physics. And topological defects in cosmology are speculated akin to dislocation or disclination in solids or liquid crystals. With the development of classical and quantum simulation, such speculative topological defects are well-emulated in a variety of condensed matter systems. Especially, the underlying theoretical foundations can be extensively applied to realize novel optical applications. Here, with the aid of transformation optics, we experimentally demonstrated bound vortex light on optical chips by simulating gauge fields of topological linear defects in cosmology through position-dependent coupling coefficients in a deformed photonic graphene. Furthermore, these types of photonic lattices inspired by topological linear defects can simultaneously generate and transport optical vortices, and even can control the orbital angular momentum of photons on integrated optical chips. Optical vortices in a topological defect of cosmic space-time.
ISSN:2047-7538
2095-5545
2047-7538
DOI:10.1038/s41377-022-00931-4