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Nonlinearity enhancement and photon blockade in hybrid optomechanical systems

Junya Yang, Zhen Yang, Chengsong Zhao, Rui Peng, Shi‐Lei Chao, Ling Zhou

2021Optics Express16 citationsDOIOpen Access PDF

Abstract

The nonlinear optomechanical coupling is an attracting characteristic in the field of optomechanics. However, the strength of single photon optomechanical coupling is still within weak coupling regime. Using the optomechanical coupling to achieve strong nonlinear interaction between photons is still a challenge. In this paper, we propose a scheme by employing optomechanical and spin-mechanical interactions to enhance the nonlinearity of photons. An effective Hamiltonian is derived, which shows that the self-Kerr and cross-Kerr nonlinearity strengths can be enhanced by adjusting the classical pumping or enhancing the spin-mechanical coupling strength. In addition, we investigate the potential usage of the nonlinearity in the photon blockade. We demonstrate that the single and two photon blockades can occur in two super modes.

Topics & Concepts

OptomechanicsPhysicsPhotonNonlinear systemHamiltonian (control theory)Coupling (piping)Nonlinear opticsKerr effectQuantum mechanicsQuantum electrodynamicsOpticsQuantumMaterials scienceMathematical optimizationMetallurgyMathematicsMechanical and Optical ResonatorsPhotonic and Optical DevicesAdvanced Fiber Laser Technologies
Nonlinearity enhancement and photon blockade in hybrid optomechanical systems | Litcius