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Autores principales: Viren, Shourya, Nayak, Rakesh Kumar, Bhoi, Biswanath, Singh, Rajeev
Formato: Preprint
Publicado: 2025
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Acceso en línea:https://arxiv.org/abs/2509.06778
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author Viren, Shourya
Nayak, Rakesh Kumar
Bhoi, Biswanath
Singh, Rajeev
author_facet Viren, Shourya
Nayak, Rakesh Kumar
Bhoi, Biswanath
Singh, Rajeev
contents This study investigates a planar hybrid system consisting of three complementary splitring resonators (CSRRs), designed to examine interactions among multiple photon modes at room temperature. The system was modeled and simulated using the full-wave electromagnetic solver CST Microwave Studio. Analysis of the transmission spectra (|S21|) as a function of frequency for different CSRR dimensions revealed distinct anti-crossing behavior, indicative of strong photon-photon coupling (PPC). To explain this phenomenon, we present theoretical framework that quantitatively captures the observed mode hybridization and provides estimates of the coupling strength, which are further validated experimentally. This work not only elucidates the fundamental dynamics of PPC in planar systems but also offers practical guidance for designing hybrid platforms with tunable photon interactions, paving the way for future advancements in planar magnonic and hybrid photonic technologies.
format Preprint
id arxiv_https___arxiv_org_abs_2509_06778
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Multimode Photon-Photon Coupling
Viren, Shourya
Nayak, Rakesh Kumar
Bhoi, Biswanath
Singh, Rajeev
Quantum Physics
This study investigates a planar hybrid system consisting of three complementary splitring resonators (CSRRs), designed to examine interactions among multiple photon modes at room temperature. The system was modeled and simulated using the full-wave electromagnetic solver CST Microwave Studio. Analysis of the transmission spectra (|S21|) as a function of frequency for different CSRR dimensions revealed distinct anti-crossing behavior, indicative of strong photon-photon coupling (PPC). To explain this phenomenon, we present theoretical framework that quantitatively captures the observed mode hybridization and provides estimates of the coupling strength, which are further validated experimentally. This work not only elucidates the fundamental dynamics of PPC in planar systems but also offers practical guidance for designing hybrid platforms with tunable photon interactions, paving the way for future advancements in planar magnonic and hybrid photonic technologies.
title Multimode Photon-Photon Coupling
topic Quantum Physics
url https://arxiv.org/abs/2509.06778