Entanglement and quantum coherence of two YIG spheres in a hybrid Laguerre–Gaussian cavity optomechanics

Hidki, Abdelkader; Peng, Jia-Xin; Singh, S. K.; Khalid, M.; Asjad, M.

doi:10.1038/s41598-024-61670-7

Sci Rep

2024

DOI: 10.1038/s41598-024-61670-7

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Entanglement and quantum coherence of two YIG spheres in a hybrid Laguerre–Gaussian cavity optomechanics

Abdelkader Hidki,

Jia-Xin Peng,

S. K. Singh

et al.

Abstract: We theoretically investigate continuous variable entanglement and macroscopic quantum coherence in the hybrid L–G rotational cavity optomechanical system containing two YIG spheres. In this system, a single L–G cavity mode and both magnon modes (which are due to the collective excitation of spins in two YIG spheres) are coupled through the magnetic dipole interaction whereas the L–G cavity mode can also exchange orbital angular momentum (OAM) with the rotating mirror (RM). We study in detail the effects of var… Show more

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Cited by 5 publications

References 95 publications

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Optimization of the rotational mode entanglement in a ring-shaped cavity with Casimir forces

Shabir,

Badshah,

Asghar

et al. 2025

Chinese Journal of Physics

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Optimization of the rotational mode entanglement in a ring-shaped cavity with Casimir forces

Shabir,

Badshah,

Asghar

et al. 2025

Chinese Journal of Physics

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Enhancing quantum coherence in hybrid optomechanical systems with coherent feedback, atomic ensembles, and optical parametric amplifier

Mekonnen,

Tesfahannes,

Darge

et al. 2024

Phys. Scr.

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We theoretically investigate quantum coherence in a hybrid optomechanical system with a fixed mirror, mechanical oscillators, two-level atoms, and an optical parametric amplifier (OPA) within the cavity. A coherent feedback loop is created by redirecting part of the cavity's output field back into the cavity via an asymmetric beam splitter. Using numerical solutions of the Lyapunov equation and steady-state mean values, we quantify the Gaussian quantum coherence of the system. Our results show that the OPA, coherent feedback, atomic ensembles, and strong laser power significantly enhance quantum coherence, while higher atomic decay rates, relative phase, and temperatures reduce it. This approach not only boosts quantum coherence but also improves resilience to temperature fluctuations, providing a robust foundation for quantum information processing.

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Multiple optomechanically induced transparency, Fano resonance, and group delay in hybrid Laguerre–Gaussian cavity with two rovibrational mirrors

Haq,

Peng,

Asjad

et al. 2024

Eur. Phys. J. Plus

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Entanglement and quantum coherence of two YIG spheres in a hybrid Laguerre–Gaussian cavity optomechanics

Cited by 5 publications

References 95 publications

Optimization of the rotational mode entanglement in a ring-shaped cavity with Casimir forces

Optimization of the rotational mode entanglement in a ring-shaped cavity with Casimir forces

Enhancing quantum coherence in hybrid optomechanical systems with coherent feedback, atomic ensembles, and optical parametric amplifier

Multiple optomechanically induced transparency, Fano resonance, and group delay in hybrid Laguerre–Gaussian cavity with two rovibrational mirrors

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