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Main Authors: Bai, Huayu, Shevchenko, Andriy, Kolkowski, Radoslaw
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2412.00925
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author Bai, Huayu
Shevchenko, Andriy
Kolkowski, Radoslaw
author_facet Bai, Huayu
Shevchenko, Andriy
Kolkowski, Radoslaw
contents Bound states in the continuum (BICs) in planar photonic structures have attracted broad scientific interest owing to their exceptional capability to confine light. Topological robustness of certain BICs allows them to be moved in the momentum space by tuning the geometric parameters of the structure. In this work, we study such a BIC in a one-dimensional periodic grating, and find that its momentum-space position can be made a non-monotonic function of a geometric parameter, forming a locally bent ''V''-shaped trajectory. We show that, near the turning point of this trajectory, the robustness of the BIC and its $Q$ factor can be greatly enhanced. We tune such ''V-BICs'' to almost merge with a symmetry-protected BIC at the $Γ$-point. This creates a ''K''-shaped ultrahigh-$Q$ region containing a BIC with a much higher and more stable $Q$ factor compared to the ordinary merging BICs. The ''K-BICs'' are also found to provide a strong enhancement of the $Q$ factor in finite gratings over an extremely wide range of geometric parameters. Our findings enable further advancements in the development of ultrahigh-$Q$ BICs and their applications.
format Preprint
id arxiv_https___arxiv_org_abs_2412_00925
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Enhanced $Q$ factor and robustness of photonic bound states in the continuum merging at locally bent trajectories
Bai, Huayu
Shevchenko, Andriy
Kolkowski, Radoslaw
Optics
Bound states in the continuum (BICs) in planar photonic structures have attracted broad scientific interest owing to their exceptional capability to confine light. Topological robustness of certain BICs allows them to be moved in the momentum space by tuning the geometric parameters of the structure. In this work, we study such a BIC in a one-dimensional periodic grating, and find that its momentum-space position can be made a non-monotonic function of a geometric parameter, forming a locally bent ''V''-shaped trajectory. We show that, near the turning point of this trajectory, the robustness of the BIC and its $Q$ factor can be greatly enhanced. We tune such ''V-BICs'' to almost merge with a symmetry-protected BIC at the $Γ$-point. This creates a ''K''-shaped ultrahigh-$Q$ region containing a BIC with a much higher and more stable $Q$ factor compared to the ordinary merging BICs. The ''K-BICs'' are also found to provide a strong enhancement of the $Q$ factor in finite gratings over an extremely wide range of geometric parameters. Our findings enable further advancements in the development of ultrahigh-$Q$ BICs and their applications.
title Enhanced $Q$ factor and robustness of photonic bound states in the continuum merging at locally bent trajectories
topic Optics
url https://arxiv.org/abs/2412.00925