Litcius/Paper detail

Nonreciprocal light transmission via optomechanical parametric interactions

Yan-Ting Lan, Wan-Jun Su, Huaizhi Wu, Yong Li, Shi-Biao Zheng

2022Optics Letters11 citationsDOIOpen Access PDF

Abstract

Nonreciprocal transmission of optical or microwave signals is indispensable in various applications involving sensitive measurements. In this paper, we study optomechanically induced directional amplification and isolation in a generic setup including two cavities and two mechanical oscillators by exclusively using blue-sideband drive tones. The input and output ports defined by the two cavity modes are coupled through coherent and dissipative paths mediated by the two mechanical resonators, respectively. By choosing appropriate transfer phases and strengths of the driving fields, either a directional amplifier or an isolator can be implemented at low thermal temperature, and both of them show bi-directional nonreciprocity working at two mirrored frequencies. The nonreciprocal device can potentially be demonstrated by opto- and electromechanical setups in both optical and microwave domains.

Topics & Concepts

Optical isolatorOpticsPhysicsIsolatorDissipative systemOptomechanicsOptical circulatorTransmission (telecommunications)Parametric statisticsMicrowaveOptical amplifierAmplifierOptical parametric amplifierCirculatorThermalMulti-mode optical fiberCoupled mode theoryOptoelectronicsOptical communicationOptical switchBirefringencePhotonicsPhase modulationIsolation (microbiology)Coupling (piping)Sagnac effectNonlinear opticsOptical filterParametric oscillatorMicrowave cavityMechanical and Optical ResonatorsAdvanced Physical and Chemical Molecular InteractionsChemical and Physical Properties of Materials