Topologically protected valley-dependent quantum photonic circuits
Abstract
Topological photonics has been introduced as a powerful platform for integrated optics, since it can deal with robust light transport, and be further extended to the quantum world. Strikingly, valley-contrasting physics in topological photonic structures contributes to valley-related edge states, their unidirectional coupling, and even valley-dependent wave-division in topological junctions. Here, we design and fabricate nanophotonic topological harpoon-shaped beam splitters (HSBSs) based on -deg-bending interfaces and demonstrate the first on-chip valley-dependent quantum information process. Two-photon quantum interference, namely, HongOu-Mandel (HOM) interference with a high visibility of , is realized with our 50/50 HSBS, which is constructed by two topologically distinct domain walls. Cascading this kind of HSBS together, we also demonstrate a simple quantum photonic circuit and generation of a path-entangled state. Our work shows that the photonic valley state can be used in quantum information processing, and it is possible to realize more complex quantum circuits with valley-dependent photonic topological insulators, which provides a novel method for on-chip quantum information processing.
Cite
@article{arxiv.2103.06686,
title = {Topologically protected valley-dependent quantum photonic circuits},
author = {Yang Chen and Xin-Tao He and Yu-Jie Cheng and Hao-Yang Qiu and Lan-Tian Feng and Ming Zhang and Dao-Xin Dai and Guang-Can Guo and Jian-Wen Dong and Xi-Feng Ren},
journal= {arXiv preprint arXiv:2103.06686},
year = {2021}
}
Comments
6 pages, 4 figures