Coexistence of Chiral and Antichiral Edge States in Photonic Crystals

Wang, Hongfei; Xie, Biye; Ren, Wei

doi:10.1002/lpor.202300764

Laser & Photonics Reviews

2023

DOI: 10.1002/lpor.202300764

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Coexistence of Chiral and Antichiral Edge States in Photonic Crystals

Hongfei Wang,

Biye Xie,

Wei Ren

Abstract: This study reports a modified Haldane model that supports transitions between valley and Chern topological phases in photonic crystals. Berry curvatures of this system can be flexibly diffused, converged, or flipped by endowing different model parameters, thus exhibiting exotic topological interface/edge behaviors, such as topological bound states with ideally zero dispersion. Importantly, the coexistence of chiral and antichiral edge states preserved simultaneously by valley and Chern topological phases is ac… Show more

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2024

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Cited by 5 publications

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Observation of Photonic Chern Metal With Bi‐Chiral Edge Propagation

Zhou,

Sun,

Lai

et al. 2024

Laser & Photonics Reviews

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The recent discovery of anti‐chiral edge states in magnetic semimetals linking two unequal‐frequency bulk Dirac nodes manifests a paradoxical picture in contrast to the chiral behavior in Chern insulators, implying an untapped phase may exist. Here, a unique Chern metal, exhibiting a nontrivial Chern number but without a complete bandgap is proposed, and the complete topological phase diagram in the modified Haldane model is obtained. Subsequently, the Chern metal in a 2D honeycomb‐lattice gyromagnetic photonic crystal by simultaneously breaking parity and time‐reversal symmetries with opposite and unequal magnetic biases at different sublattices is realized. For the paired complementary‐shape boundaries, such as zigzag/bearded, it is experimentally revealed that either clockwise or counter‐clockwise chiral character is switchable in Chern metals relying on different boundary choices, a remarkable property deemed as bi‐chiral edge propagation. The topological Chern metal with hidden bulk‐boundary correspondence is articulated to bridge the chiral and anti‐chiral paradox gap between Chern insulators and magnetic semimetals. These results enrich the family of Chern materials and highlight the previously untapped on‐demand control of topological edge states.

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Observation of Photonic Chern Metal With Bi‐Chiral Edge Propagation

Zhou,

Sun,

Lai

et al. 2024

Laser & Photonics Reviews

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Edge and corner states in non-Hermitian second-order topological photonic crystals

Zhang,

Wang,

Song

et al. 2024

Optics & Laser Technology

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Topologically protected one-way acoustic splitter using antichiral edge states

Wang,

Liang,

Cheng

2024

Phys. Rev. Applied

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Coexistence of Chiral and Antichiral Edge States in Photonic Crystals

Cited by 5 publications

References 61 publications

Observation of Photonic Chern Metal With Bi‐Chiral Edge Propagation

Observation of Photonic Chern Metal With Bi‐Chiral Edge Propagation

Edge and corner states in non-Hermitian second-order topological photonic crystals

Topologically protected one-way acoustic splitter using antichiral edge states

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