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Autori principali: Yan, Yiyun, Liu, Yichao, Sun, Fei, Zhou, Yuxin
Natura: Preprint
Pubblicazione: 2026
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Accesso online:https://arxiv.org/abs/2602.20602
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author Yan, Yiyun
Liu, Yichao
Sun, Fei
Zhou, Yuxin
author_facet Yan, Yiyun
Liu, Yichao
Sun, Fei
Zhou, Yuxin
contents Bound states in the continuum (BICs), known for their theoretically infinite quality (Q) factors and strong field localization, hold great promise for high-performance photonic devices. However, conventional true BICs typically rely on infinitely periodic structures, and their realization in finite-sized compact structures faces fundamental challenges, which severely limits device miniaturization and integration. In this work, a compact BIC design method based on optical conformal mapping is proposed, where a conventionally infinite periodic structure extended along one direction is mapped into a finite-sized annular structure. This symmetry transition, i.e., from translational to rotational, enables structural miniaturization while fully preserving the eigenvalues and BIC type of the original system. These transformations require only the adjustment of background permittivity and source distribution, without introducing extreme material parameters. As a concrete example, we show through theoretical and numerical analysis that a transformed compact all-dielectric structure, consisting of a double annular dielectric grating embedded in a gradient-index dielectric background, can support true BICs in a finite region. This work provides a simple and general strategy for achieving true BICs in compact all-dielectric structures, paving the way toward miniaturized high-Q photonic devices.
format Preprint
id arxiv_https___arxiv_org_abs_2602_20602
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle True Bound States in the Continuum in Compact All-Dielectric Structures
Yan, Yiyun
Liu, Yichao
Sun, Fei
Zhou, Yuxin
Optics
Bound states in the continuum (BICs), known for their theoretically infinite quality (Q) factors and strong field localization, hold great promise for high-performance photonic devices. However, conventional true BICs typically rely on infinitely periodic structures, and their realization in finite-sized compact structures faces fundamental challenges, which severely limits device miniaturization and integration. In this work, a compact BIC design method based on optical conformal mapping is proposed, where a conventionally infinite periodic structure extended along one direction is mapped into a finite-sized annular structure. This symmetry transition, i.e., from translational to rotational, enables structural miniaturization while fully preserving the eigenvalues and BIC type of the original system. These transformations require only the adjustment of background permittivity and source distribution, without introducing extreme material parameters. As a concrete example, we show through theoretical and numerical analysis that a transformed compact all-dielectric structure, consisting of a double annular dielectric grating embedded in a gradient-index dielectric background, can support true BICs in a finite region. This work provides a simple and general strategy for achieving true BICs in compact all-dielectric structures, paving the way toward miniaturized high-Q photonic devices.
title True Bound States in the Continuum in Compact All-Dielectric Structures
topic Optics
url https://arxiv.org/abs/2602.20602