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Main Authors: Wei, Guochao, Qi, Yingfeng, Du, Kang, Zhu, Wei, Liu, Zhenzhen, Xiao, Junjun, Wang, Shengxiang, Gao, Zhen
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2605.17717
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author Wei, Guochao
Qi, Yingfeng
Du, Kang
Zhu, Wei
Liu, Zhenzhen
Xiao, Junjun
Wang, Shengxiang
Gao, Zhen
author_facet Wei, Guochao
Qi, Yingfeng
Du, Kang
Zhu, Wei
Liu, Zhenzhen
Xiao, Junjun
Wang, Shengxiang
Gao, Zhen
contents Ultracompact cladding-free waveguide arrays with zero inter-channel spacing and negligible crosstalk open a new avenue for high-density integrated photonic circuits. However, existing cladding-free waveguide arrays typically rely on conventional trivial bulk modes, making them highly susceptible to scattering losses at sharp bends or in the presence of obstacles and defects. To overcome this limitation, we theoretically propose and experimentally demonstrate a robust, crosstalk-free, and cladding-free photonic waveguide array based on chiral anomaly bulk states (CABSs) in photonic crystals. By interfacing distinct Dirac photonic crystals that host Dirac cones at different high-symmetry points (Γ and K) in the Brillouin zone and carefully engineering the boundary conditions, the boundary-induced CABSs in adjacent channels become effectively decoupled due to a large momentum separation, thereby eliminating inter-channel crosstalk. More importantly, we experimentally demonstrate that these crosstalk-free CABSs are robust to perturbations, including metallic obstacles, air defects, and sharp bends. We further extend the CABS-based waveguide array to two dimensions and demonstrate a cladding-free triangular resonator and a crosstalk-free waveguide crossing, both of which are previously unattainable. Our work establishes a new design paradigm for cladding-free, crosstalk-free, and ultracompact topological photonic devices, paving the way for robust, highly integrated photonic circuits.
format Preprint
id arxiv_https___arxiv_org_abs_2605_17717
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Crosstalk-free Chiral Anomaly Bulk States in Photonic Crystals
Wei, Guochao
Qi, Yingfeng
Du, Kang
Zhu, Wei
Liu, Zhenzhen
Xiao, Junjun
Wang, Shengxiang
Gao, Zhen
Optics
Ultracompact cladding-free waveguide arrays with zero inter-channel spacing and negligible crosstalk open a new avenue for high-density integrated photonic circuits. However, existing cladding-free waveguide arrays typically rely on conventional trivial bulk modes, making them highly susceptible to scattering losses at sharp bends or in the presence of obstacles and defects. To overcome this limitation, we theoretically propose and experimentally demonstrate a robust, crosstalk-free, and cladding-free photonic waveguide array based on chiral anomaly bulk states (CABSs) in photonic crystals. By interfacing distinct Dirac photonic crystals that host Dirac cones at different high-symmetry points (Γ and K) in the Brillouin zone and carefully engineering the boundary conditions, the boundary-induced CABSs in adjacent channels become effectively decoupled due to a large momentum separation, thereby eliminating inter-channel crosstalk. More importantly, we experimentally demonstrate that these crosstalk-free CABSs are robust to perturbations, including metallic obstacles, air defects, and sharp bends. We further extend the CABS-based waveguide array to two dimensions and demonstrate a cladding-free triangular resonator and a crosstalk-free waveguide crossing, both of which are previously unattainable. Our work establishes a new design paradigm for cladding-free, crosstalk-free, and ultracompact topological photonic devices, paving the way for robust, highly integrated photonic circuits.
title Crosstalk-free Chiral Anomaly Bulk States in Photonic Crystals
topic Optics
url https://arxiv.org/abs/2605.17717