In this paper,we propose a scheme to achieve a multiphonon-resonance quantum Rabi model and adiabatic passage in a strong-coupling cavity optomechanical system.In the scheme,when the driving bichromatic laser beam is adjusted to the off-resonant j-order red-and blue-sideband,the interaction between the cavity and mechanical oscillator leads to a j-phonon resonance quantum Rabi model.Moreover,we show that there exists a resonant multi-phonon coupling via intermediate states connected by counter-rotating processes when the frequency of the simulated bosonic mode is near a fraction of the transition frequency of the simulated two-level system.As a typical example,we theoretically analyze the two-phonon resonance quantum Rabi model,and derive an effective Hamiltonian of the six-phonon coupling.Finally,we present a method of six-phonon generation based on adiabatic passage across the resonance.Numerical simulations confirm the validity of the proposed scheme.Theoretically,the proposed scheme can be extended to the realization of 3j-phonon state.

Zhi-Rong Zhong;Lei Chen;Jian-Qi Sheng;Li-Tuo Shen;Shi-Biao Zheng

Fujian Key Laboratory of Quantum Information and Quantum Optics,College of Physics and Information Engineering,Fuzhou University,Fuzhou 350108,China

物理学前沿

[1]Zhi-Rong Zhong;Lei Chen;Jian-Qi Sheng;Li-Tuo Shen;Shi-Biao Zheng-.Multiphonon-resonance quantum Rabi model and adiabatic passage in a cavity-optomechanical system)[J].物理学前沿,2022(01):73-81

Multiphonon,multiphonon,bichromatic

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