Litcius/Paper detail

On-chip optical pulse train generation through the optomechanical oscillation

Xiangming Xu, Hailong Pi, Wangke Yu, Jize Yan

2021Optics Express13 citationsDOIOpen Access PDF

Abstract

This paper proposes a novel on-chip optical pulse train generator (OPTG) based on optomechanical oscillation (OMO). The OPTG consists of an optical cavity and mechanical resonator, in which OMO periodically modulates the optical cavity field and consequently generates optical pulse trains. The dimensionless method are introduced to simulate the OMO-based OPTG with reduced analysis complexity. We investigate the optomechanical coupling and the dynamic back-action processes, by which we found a dead zone that forbids the OMO, and derived the optimal laser detuning and the minimum threshold power. We analysed the OMO-based OPTG in terms of the pulse shape distortion, extinction ratio (ER) and duty-cycle (DC). Increasing input power, mechanical and optical Q-factors will increase ER, reduce DC and produce sharper and shorter optical pulses. We also discuss the design guidance of OMO-based OPTG and explore its application in distributed fibre optical sensor (DFOS).

Topics & Concepts

OpticsDuty cyclePulse (music)ResonatorOptical powerOscillation (cell signaling)PhysicsOptical cavityExtinction ratioPower (physics)LaserMaterials scienceWavelengthBiologyQuantum mechanicsGeneticsDetectorMechanical and Optical ResonatorsPhotonic and Optical DevicesAdvanced Fiber Laser Technologies