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Main Authors: Molinares, Hugo, He, Bing, Eremeev, Vitalie
Format: Preprint
Published: 2023
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Online Access:https://arxiv.org/abs/2305.18291
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author Molinares, Hugo
He, Bing
Eremeev, Vitalie
author_facet Molinares, Hugo
He, Bing
Eremeev, Vitalie
contents We present a systematic study on the effects of dynamical transfer and steady-state synchronization of quantum states in a hybrid optomechanical network, consisting of two cavities with atoms inside and interacting via a common moving mirror (i.e. mechanical oscillator), are studied. It is found that high fidelity transfer of Schrödinger's cat and squeezed states between the cavities modes is possible. Additionally, we show the effect of synchronization of cavity modes in a steady squeezed states at high fidelity realizable by the mechanical oscillator which intermediates the generation, transfer and stabilization of the squeezing. In this framework, we also have studied the generation and evolution of bipartite and tripartite entanglement and found its interconnection to the effects of transfer and synchronization. Particularly, when the transfer occurs at the maximal fidelity, at this instant any entanglement is almost zero, so the modes are disentangled. On the other hand, when the two bosonic modes are synchronized in a squeezed stationary state, then these modes are also entangled. The results found in this study may find their applicability in quantum information and computation technologies, as well in metrology setups, where the squeezed states are essential.
format Preprint
id arxiv_https___arxiv_org_abs_2305_18291
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Transfer of quantum states and stationary quantum correlations in a hybrid optomechanical network
Molinares, Hugo
He, Bing
Eremeev, Vitalie
Quantum Physics
We present a systematic study on the effects of dynamical transfer and steady-state synchronization of quantum states in a hybrid optomechanical network, consisting of two cavities with atoms inside and interacting via a common moving mirror (i.e. mechanical oscillator), are studied. It is found that high fidelity transfer of Schrödinger's cat and squeezed states between the cavities modes is possible. Additionally, we show the effect of synchronization of cavity modes in a steady squeezed states at high fidelity realizable by the mechanical oscillator which intermediates the generation, transfer and stabilization of the squeezing. In this framework, we also have studied the generation and evolution of bipartite and tripartite entanglement and found its interconnection to the effects of transfer and synchronization. Particularly, when the transfer occurs at the maximal fidelity, at this instant any entanglement is almost zero, so the modes are disentangled. On the other hand, when the two bosonic modes are synchronized in a squeezed stationary state, then these modes are also entangled. The results found in this study may find their applicability in quantum information and computation technologies, as well in metrology setups, where the squeezed states are essential.
title Transfer of quantum states and stationary quantum correlations in a hybrid optomechanical network
topic Quantum Physics
url https://arxiv.org/abs/2305.18291