Generation of Strong Mechanical–Mechanical Entanglement by Pump Modulation

Bai, Cheng‐Hua; Wang, Dongyang; Zhang, Shou; Liu, Shutian; Wang, Hong-Fu

doi:10.1002/qute.202000149

Cited by 11 publications

(3 citation statements)

References 93 publications

(90 reference statements)

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“…[10][11][12][13][14][15][16][17][18][19][20][21][22][23][24] DOI: 10.1002/andp. 202200470 For example, Schrödinger cat states, [25,26] squeezing of light, [27] macroscopic entangle states, [28,29] and feedback cooling by radiation pressure [30] were realized in optomechanical systems. Generally, in order to overcome the intrinsic field and mechanical losses, a powerful external field should be introduced into this system.…”

Section: Introductionmentioning

confidence: 99%

Chaos Generation in Opto‐Mechanical Coupling System Assisted by Two‐Level Atoms

Zhao

Hou

et al. 2023

Annalen der Physik

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Chaos is important in nonlinear science and promotes the development of fundamental studies, such as neural networks, extreme event statistics, and electron transport. In this paper, a theoretical scheme for generating dynamical chaos in a Fabry-Perot cavity with two-level atoms is investigated. Through the injection of atoms, controllable chaos of the cavity and mechanical oscillator is achieved simultaneously by the external laser field. The trajectory and the maximal Lyapunov exponent that characterize the properties of the chaos could be optimized by adjusting the coupling constant, driving field, injection of atoms, the frequency of the cavity, and the frequency of the mechanical oscillator. This study provides a new idea to manipulate the cavity and mechanical chaos assisted by two level atoms. It is hoped that the results presented can benefit controllable chaos generation and its applications.

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Section: Introductionmentioning

confidence: 99%

Chaos Generation in Opto‐Mechanical Coupling System Assisted by Two‐Level Atoms

Zhao

Hou

et al. 2023

Annalen der Physik

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“…Entanglement as a vital quantum phenomenon is the most intrinsic feature of quantum mechanics with a variety of applications in continuous variable information processing 3 , which has received widespread attention. And a great deal of effort has been devoted to generating and controlling entanglement [4][5][6][7][8] . The EPR steering, as a sufficient condition for entanglement, and a necessary condition for Bell nonlocality, was recognized by Schrödinger in 1935 9 , and put on a firm mathematical footing by refs.…”

Section: Introductionmentioning

confidence: 99%

Cooperative-effect-induced one-way steering in open cavity magnonics

Guan

Wang

2022

npj Quantum Inf

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We propose to generate and control stationary one-way steering with strong entanglement between photon and magnon modes by the cooperative effect of coherent coupling and dissipative coupling. Due to the combination of two couplings, the system becomes a parity-time-like symmetric non-Hermitian system, and two exceptional points (EPs)-like appear in the real and imaginary parts of the eigenvalues. We demonstrate that the especially obvious quantum entanglement and perfect one-way steering can be obtained around two EPs-like. The continuous variable entanglement and steering produced by this cooperative effect show stronger robustness to environment temperature and system dissipation than that induced by nonlinearity. The one-way steering directivity can be controlled by the relative phase of cooperative dissipation and the frequency detuning of the magnon mode. Our work shows the controllability advantage of the open cavity magnonic system and may open up a platform for the generation of stationary one-way steering.

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“…Long-distance entanglement, which is of great importance for distributed quantum networks and quantum-enhanced metrology, [1,2] has attracted extensive attention. Recently, the long-distance entanglement between macroscopic objects has been successfully prepared and manipulated in many quantum systems, such as establishing entanglement between macroscopic mechanical oscillator and atomic ensemble via unidirectional light coupling, [3] realizing entanglement between two remote mechanical oscillators by means of pump modulation, [4] and entangling two magnon modes via magnetostrictive interaction. [5] In addition, a study has been conducted DOI: 10.1002/andp.202200315 on the entanglement between a macroscopic mechanical oscillator and a magnon mode through the unidirectional cavity coupling.…”

Section: Introductionmentioning

confidence: 99%

Entanglement and Asymmetric Steering Between Distant Magnon and Mechanical Modes in an Optomagnonic‐Mechanical System

2022

Self Cite

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A scheme is proposed to generate long-distance entanglement and asymmetric steering between mechanical oscillator and magnon mode across the frequency difference of ≈10 GHz in an optomagnonic-mechanical system composed of a magnon, a mechanical oscillator, and two cavities. The calculated results reveal that the long-distance magnon-phonon entanglement can be achieved due to the fact that the quantum correlation of the two-mode squeezed vacuum microwave field is successively transferred to the magnon mode and the phonon mode. Moreover, the entanglement is strong enough such that the quantum steering between magnon mode and phonon mode can be achieved in an asymmetric manner. Furthermore, the direction of quantum steering can be flexibly adjusted via changing the magnon damping rate, coupling strength, squeezing parameter, and bath temperature. The proposed scheme provides the possibility for the generation of macroscopic quantum entanglement and steering and has potential applications in quantum information processing.

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Generation of Strong Mechanical–Mechanical Entanglement by Pump Modulation

Cited by 11 publications

References 93 publications

Chaos Generation in Opto‐Mechanical Coupling System Assisted by Two‐Level Atoms

Chaos Generation in Opto‐Mechanical Coupling System Assisted by Two‐Level Atoms

Cooperative-effect-induced one-way steering in open cavity magnonics

Entanglement and Asymmetric Steering Between Distant Magnon and Mechanical Modes in an Optomagnonic‐Mechanical System

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