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Dual-Bus Resonator for Multi-Port Spectral Engineering

Authors
Kim, TaewonHasan, MehediChoi, Yu SungYoon, Jae WoongKim, Sangsik
Issue Date
Apr-2026
Publisher
WILEY-V C H VERLAG GMBH
Keywords
critical coupling; Fano resonance; integrated photonics; waveguide-resonator coupling
Citation
LASER & PHOTONICS REVIEWS, v.20, no.8, pp 1 - 10
Pages
10
Indexed
SCIE
SCOPUS
Journal Title
LASER & PHOTONICS REVIEWS
Volume
20
Number
8
Start Page
1
End Page
10
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/213177
DOI
10.1002/lpor.202502935
ISSN
1863-8880
1863-8899
Abstract
Microresonators are essential in integrated photonics, enabling optical filters, modulators, sensors, and frequency converters. Their spectral response is governed by bus-to-resonator coupling, typically classified as under-, critical-, or over-coupling. Conventional single-bus designs inevitably link the conditions for critical coupling, a transmission zero, and maximum intra-cavity power, preventing independent control of these phenomena and restricting the ability to engineer coupling regimes and resonance lineshapes. Here we propose and experimentally demonstrate a dual-bus racetrack resonator that breaks this constraint. Our design demonstrates complementary channel-specific coupling regimes and enables wavelength-dependent Lorentzian-to-Fano lineshaping. We model the device using three-waveguide coupled-mode theory and pole-zero analysis, which reveals that transmission zeros are decoupled from cavity-defined critical coupling and maximum intra-cavity power. Furthermore, the dual-bus scheme operates broadband, spanning visible to mid-infrared across all four transmission channels, highlighting its spectral richness and platform independence. These results establish a general framework for multi-port spectral engineering in integrated photonics, with broad implications for tunable filters, modulators, sensors, and nonlinear optical systems.
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