Related papers: $\mathcal{PT}$-symmetric cavity magnomechanics with gain-assisted transparency and amplification

$\mathcal{PT}$-symmetric cavity magnomechanics with gain-assisted transparency and amplification

URL: http://arxiv.org/abs/2512.08612v1
Date: Tue, 09 Dec 2025 13:57:56 GMT
Title: $\mathcal{PT}$-symmetric cavity magnomechanics with gain-assisted transparency and amplification
Authors: Cham Oumie, Wu-Ming Liu, Kashif Ammar Yasir,
Abstract summary: We investigate magnomechanically induced transparency in a parity-time-symmetric cavity magnomechanical system.<n>In the Hermitian regime, strong photon-magnon coupling generates a single transparency window in the cavity transmission.<n>We map their deformation into asymmetric, gain-assisted Fano ridges in the joint space of probe and magnon detunings.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: We investigate magnomechanically induced transparency in a parity-time-symmetric cavity magnomechanical system with traveling-field-induced non-Hermiticity. The setup consists of a microwave cavity mode coupled to magnons in a single-crystal yttrium iron garnet sphere, which in turn are hybridized with a vibrational mechanical mode through magnetostrictive interaction. In the Hermitian regime, strong photon-magnon coupling generates a single transparency window in the cavity transmission, which splits into a doublet when the magnon is coherently hybridized with the mechanical mode via magnomechanical coupling. This establishes a versatile platform in which the transparency spectrum can be engineered from single- to multi-window response using experimentally accessible, scaled magnomechanical interactions. When a non-Hermitian coupling is introduced, the system enters a parity-time-broken regime in which the transparency ceases to be purely passive and becomes gain assisted, leading to asymmetric transmission with amplification on one side of the resonance and enhanced absorption on the other. By tuning the cavity detuning, we convert magnomechanical transparency into Fano-type line shapes with strongly non-Lorentzian phase dispersion and map their deformation into asymmetric, gain-assisted Fano ridges in the joint space of probe and magnon detunings. Finally, we analyze the associated group delay and show that both slow- and fast-light behavior can be widely tuned by varying the photon-magnon and magnomechanical couplings together with the non-Hermitian strength, highlighting parity-time-symmetric cavity magnomechanics as a promising platform for reconfigurable quantum signal processing and enhanced sensing.

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