TY - JOUR
T1 - Robust chirality via merging accidental BICs with net zero topological charge
AU - Hu, Hui
AU - Zhou, Chaobiao
AU - Zhang, Yukang
AU - Hu, Meng Xia
AU - Peng, Juntian
AU - Tang, Huawei
AU - Huang, Lujun
AU - Liu, Jianlong
AU - Guan, Chunying
AU - Zhu, Zheng
AU - Chen, Xiaoshuang
AU - Lu, Wei
AU - Li, Xiangping
AU - Deng, Zi Lan
AU - Qiu, Cheng Wei
AU - Li, Guanhai
AU - Shi, Jinhui
N1 - Publisher Copyright:
© The Author(s) 2026.
PY - 2026/12
Y1 - 2026/12
N2 - Chiral metasurfaces leveraging bound states in the continuum (BICs) offer a powerful route for enhancing light–matter interactions. However, existing quasi-BIC architectures typically face a fundamental trade-off between high quality (Q) factors and wide-angle chiral operation. Most designs confine strong circular dichroism (CD) to isolated points in momentum space (k-space) and often rely on intricate three-dimensional (3D) meta-atoms, rendering them highly sensitive to fabrication imperfections and angular misalignment. Here, we experimentally realize a planar dielectric metasurface that supports a wide k-domain chirality arising from accidental BICs with a net zero-topological-charge (ZTC). By lifting a Dirac-type degeneracy through controlled in-plane and out-of-plane symmetry breaking, we induce a deterministic topological evolution in which the same-handed circularly polarized (C) points migrate toward and accumulate near the Γ point, while the opposite-handed singularities annihilate or shift to higher k-space. This mechanism delivers record-level performance—an ultrahigh Q-factor (~ 104), near-unity linear and nonlinear CD (0.99/0.999), and robust angular coverage (|kxP/2π, kyP/2π|< 0.06)—all within a fabrication-friendly, single-layer dielectric platform. These results establish a new regime for chiral photonics, unifying high chiral purity, angular robustness, and topological stability in a scalable planar architecture.
AB - Chiral metasurfaces leveraging bound states in the continuum (BICs) offer a powerful route for enhancing light–matter interactions. However, existing quasi-BIC architectures typically face a fundamental trade-off between high quality (Q) factors and wide-angle chiral operation. Most designs confine strong circular dichroism (CD) to isolated points in momentum space (k-space) and often rely on intricate three-dimensional (3D) meta-atoms, rendering them highly sensitive to fabrication imperfections and angular misalignment. Here, we experimentally realize a planar dielectric metasurface that supports a wide k-domain chirality arising from accidental BICs with a net zero-topological-charge (ZTC). By lifting a Dirac-type degeneracy through controlled in-plane and out-of-plane symmetry breaking, we induce a deterministic topological evolution in which the same-handed circularly polarized (C) points migrate toward and accumulate near the Γ point, while the opposite-handed singularities annihilate or shift to higher k-space. This mechanism delivers record-level performance—an ultrahigh Q-factor (~ 104), near-unity linear and nonlinear CD (0.99/0.999), and robust angular coverage (|kxP/2π, kyP/2π|< 0.06)—all within a fabrication-friendly, single-layer dielectric platform. These results establish a new regime for chiral photonics, unifying high chiral purity, angular robustness, and topological stability in a scalable planar architecture.
KW - Bound states in the continuum
KW - Chiral metasurface
KW - High-quality factor
KW - Nonlinearity
KW - Topological robustness
UR - https://www.scopus.com/pages/publications/105033418033
U2 - 10.1186/s43593-026-00126-z
DO - 10.1186/s43593-026-00126-z
M3 - 文章
AN - SCOPUS:105033418033
SN - 2097-1710
VL - 6
JO - eLight
JF - eLight
IS - 1
M1 - 12
ER -