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ARRAW: anti-resonant reflecting acoustic waveguides

M K Schmidt, M C O’Brien, M J Steel, C G Poulton

2020New Journal of Physics14 citationsDOIOpen Access PDF

Abstract

Abstract Development of acoustic and optoacoustic on-chip technologies calls for new solutions to guiding, storing and interfacing acoustic and optical waves in integrated silicon-on-insulator systems. One of the biggest challenges in this field is to suppress the radiative dissipation of the propagating acoustic waves, while co-localizing the optical and acoustic fields in the same region of an integrated waveguide. Here we address this problem by introducing anti-resonant reflecting acoustic waveguides (ARRAWs)—mechanical analogues of the anti-resonant reflecting optical waveguides. We discuss the principles of anti-resonant guidance and establish guidelines for designing efficient ARRAWs. Finally, we demonstrate examples of the simplest silicon/silica ARRAW platforms that can simultaneously serve as near-IR optical waveguides, and support strong backward Brillouin scattering.

Topics & Concepts

PhysicsInterfacingAcoustic waveOpticsAcousticsBrillouin zoneDissipationField (mathematics)WaveguideBrillouin scatteringPhysical acousticsRadiative transferOptical fiberOptical fieldOptoelectronicsBroadbandMechanical and Optical ResonatorsUltrasonics and Acoustic Wave PropagationPhotonic and Optical Devices
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