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Coherent Feedback Control of Indirectly Coupled Mode Multipartite Entanglement in a Cavity Opto‐Magnomechanical System

Amjad Sohail, Mohamed Amazioug, S. K. Singh, Noura Chabar, Rizwan Ahmed, M. C. de Oliveira

2025Annalen der Physik14 citationsDOI

Abstract

Abstract This study is based on a theoretical proposal for the generation and enhancement of multipartite entanglements of indirectly coupled modes using the coherent feedback loop scheme. The coherent feedback‐control mechanism that is presented here significantly improves the bipartite and tripartite entanglements among the indirectly coupled modes. The numerical study shows that the entanglements can be sufficiently tuned by the effective couplings and the reflective parameter of the beam splitter. In addition, the robustness and survival of the generated entanglement in the proposed system have shown to be significantly dependent on the reflectivity parameter. The existence of a genuine tripartite entanglement state in the dynamical state of the system is proven. Finally, the effect of the reflective parameter on three different tripartite entanglements is observed. The findings pave the way for tuning and enhancing multipartite entanglements of indirectly coupled modes in current cavity Opto‐magnomechanical systems and may have various vital applications in quantum information.

Topics & Concepts

MultipartiteQuantum entanglementMultipartite entanglementPhysicsMode (computer interface)Quantum mechanicsCoherent controlW stateLaserSquashed entanglementQuantumComputer scienceOperating systemMechanical and Optical ResonatorsQuantum Information and CryptographyPhotonic and Optical Devices