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Main Authors: Rao, Zeyu, Zou, Changling, Chen, Yang, Guo, Guangcan, Gong, Ming
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2506.19678
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author Rao, Zeyu
Zou, Changling
Chen, Yang
Guo, Guangcan
Gong, Ming
author_facet Rao, Zeyu
Zou, Changling
Chen, Yang
Guo, Guangcan
Gong, Ming
contents Bound state in the continuum (BIC) and quasi-BIC represent a remarkable class of wave functions that disobey conventional intuition by exhibiting spatially localized modes embedded in the continuum spectrum. In recent years, these states have found important applications in interdisciplinary systems as a non-radiating mode with ultra-long lifetime. In these applications, a key question is how to convert a quasi-BIC into an exact BIC, and what the general criterion is for this transition. In this work, we uncover its origin using two steps in a two-band model with an arbitrary confining potential. Firstly, we demonstrate that a bound state coupled to a continuum band can yield quasi-BIC. Then, we show that tuning the coupling between the bands can convert the quasi-BIC into an exact BIC. In our theory, the real and complex poles of the spectra have a clear physical meaning for the quasi- and exact BICs, and we give the general criterion for exact BICs. Unlike previous proposals, our theory requires neither symmetry protection nor topological constraints and can be extended to a multiband model, providing a new framework for realizing BICs and offering new insights for their design in different fields, including photonics, acoustics, ultracold atoms and Bose-Einstein condensate with and without many-body interactions.
format Preprint
id arxiv_https___arxiv_org_abs_2506_19678
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Uncovering the origin of bound state in the continuum
Rao, Zeyu
Zou, Changling
Chen, Yang
Guo, Guangcan
Gong, Ming
Quantum Physics
Quantum Gases
Bound state in the continuum (BIC) and quasi-BIC represent a remarkable class of wave functions that disobey conventional intuition by exhibiting spatially localized modes embedded in the continuum spectrum. In recent years, these states have found important applications in interdisciplinary systems as a non-radiating mode with ultra-long lifetime. In these applications, a key question is how to convert a quasi-BIC into an exact BIC, and what the general criterion is for this transition. In this work, we uncover its origin using two steps in a two-band model with an arbitrary confining potential. Firstly, we demonstrate that a bound state coupled to a continuum band can yield quasi-BIC. Then, we show that tuning the coupling between the bands can convert the quasi-BIC into an exact BIC. In our theory, the real and complex poles of the spectra have a clear physical meaning for the quasi- and exact BICs, and we give the general criterion for exact BICs. Unlike previous proposals, our theory requires neither symmetry protection nor topological constraints and can be extended to a multiband model, providing a new framework for realizing BICs and offering new insights for their design in different fields, including photonics, acoustics, ultracold atoms and Bose-Einstein condensate with and without many-body interactions.
title Uncovering the origin of bound state in the continuum
topic Quantum Physics
Quantum Gases
url https://arxiv.org/abs/2506.19678