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Auteurs principaux: Gupta, Pooja Kumari, Sarma, Amarendra K., Chakraborty, Subhadeep
Format: Preprint
Publié: 2026
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Accès en ligne:https://arxiv.org/abs/2603.04808
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author Gupta, Pooja Kumari
Sarma, Amarendra K.
Chakraborty, Subhadeep
author_facet Gupta, Pooja Kumari
Sarma, Amarendra K.
Chakraborty, Subhadeep
contents We show that a driven-dissipative cavity-magnonic dimer supports multistability with coexisting symmetric and symmetry-broken steady states. The interplay between magnon Kerr nonlinearity and photon tunneling induces magnon self-trapping, leading to a persistent population imbalance between the two resonators. In the vicinity of saddle-node bifurcations, the system exhibits critical slowing down, with relaxation times far exceeding the intrinsic dissipation scale. Focusing on quan- tum correlations, we analyze the quantum fidelity and mutual information between the intercavity magnon modes. We find that both the infidelity and the mutual information increase sharply near the phase boundaries, providing clear quantum signatures of the multistable and symmetry-broken phases. Our results establish cavity magnonic dimers as a versatile platform for exploring nonlinear nonequilibrium physics in hybrid quantum systems.
format Preprint
id arxiv_https___arxiv_org_abs_2603_04808
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Multistability and Self-Trapping in Cavity-Magnonic Dimer
Gupta, Pooja Kumari
Sarma, Amarendra K.
Chakraborty, Subhadeep
Quantum Physics
We show that a driven-dissipative cavity-magnonic dimer supports multistability with coexisting symmetric and symmetry-broken steady states. The interplay between magnon Kerr nonlinearity and photon tunneling induces magnon self-trapping, leading to a persistent population imbalance between the two resonators. In the vicinity of saddle-node bifurcations, the system exhibits critical slowing down, with relaxation times far exceeding the intrinsic dissipation scale. Focusing on quan- tum correlations, we analyze the quantum fidelity and mutual information between the intercavity magnon modes. We find that both the infidelity and the mutual information increase sharply near the phase boundaries, providing clear quantum signatures of the multistable and symmetry-broken phases. Our results establish cavity magnonic dimers as a versatile platform for exploring nonlinear nonequilibrium physics in hybrid quantum systems.
title Multistability and Self-Trapping in Cavity-Magnonic Dimer
topic Quantum Physics
url https://arxiv.org/abs/2603.04808