Litcius/Paper detail

Multiphysical sensing of light, sound and microwave in a microcavity Brillouin laser

Jianfan Yang, Tian Qin, Fangxing Zhang, Xianfeng Chen, Xiaoshun Jiang, Wenjie Wan

2020Nanophotonics37 citationsDOIOpen Access PDF

Abstract

Abstract Light, sound, and microwave are important tools for many interdisciplinary applications in a multi‐physical environment, and they usually are inefficient to be detected simultaneously in the same physical platform. However, at the microscopic scale, these waves can unexpectedly interact with the same microstructure through resonant enhancement, making it a unique hybrid micro‐system for new applications across multiple physical channels. Here we experimentally demonstrate an optomechanical microdevice based on Brillouin lasing operation in an optical microcavity as a sensitive unit to sense external light, sound, and microwave signals in the same platform. These waves can induce modulations to the microcavity Brillouin laser (MBL) in a resonance‐enhanced manner through either the pressure forces including radiation pressure force or thermal absorption, allowing several novel applications such as broadband non‐photovoltaic detection of light, sound‐light wave mixing, and deep‐subwavelength microwave imaging. These results pave the way towards on‐chip integrable optomechanical solutions for sensing, free‐space secure communication, and microwave imaging.

Topics & Concepts

Brillouin zoneMicrowaveBrillouin scatteringLaserLasing thresholdOptoelectronicsMaterials scienceOpticsOptomechanicsRadiation pressureAbsorption (acoustics)PhysicsResonatorQuantum mechanicsMechanical and Optical ResonatorsPhotonic and Optical DevicesAdvanced Fiber Laser Technologies