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Paper detail

Mechanical cooling in the single-photon quadratical optomechanics

In the paper we study the nonlinear mechanical cooling processes in the intrinsic quadratically optomechanical coupling system without linearizing the optomechanical interaction. We apply the scattering theory to calculate the transition rates between different mechanical Fock states with the use of the resolvent of Hamiltonian, which allows for a direct identification of the underlying physical processes, where only even-phonon transitions are permitted and odd-phonon transitions are forbidden. We verify the feasibility of the approach by comparing the steady-state mean phonon number obtained from transition rates with the simulation of the full quantum master equation, and also discuss the analytical results in the weak coupling limit that coincide with two-phonon mechanical cooling processes. Furthermore, to evaluate the statistical properties of steady mechanical state, we respectively apply the Mandel Q parameter to show that the oscillator can be in a nonclassical mechanical states, and the phonon number uctuations F to display that the even-phonon transitions favor to suppress the phonon number uctuations compared to the linear coupling optomechanical system.

preprint2015arXivOpen access
Wen-ju GuZhen YiLi-hui SunDa-hai Xu
quant-ph
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Wen-ju GuZhen YiLi-hui SunDa-hai Xu

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