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Non-reciprocal acoustics in a viscous environment

Hyeonu Heo, Ezekiel Walker, Yurii Zubov, Dmitrii Shymkiv, Dylan Wages, Arkadii Krokhin, Tae-Youl Choi, Arup Neogi

2020Proceedings of the Royal Society A Mathematical Physical and Engineering Sciences20 citationsDOIOpen Access PDF

Abstract

It is demonstrated that acoustic transmission through a phononic crystal with anisotropic solid scatterers becomes non-reciprocal if the background fluid is viscous. In an ideal (inviscid) fluid, the transmission along the direction of broken P symmetry is asymmetric. This asymmetry is compatible with reciprocity since time-reversal symmetry ( T symmetry) holds. Viscous losses break T symmetry, adding a non-reciprocal contribution to the transmission coefficient. The non-reciprocal transmission spectra for a phononic crystal of metallic circular cylinders in water are experimentally obtained and analysed. The surfaces of the cylinders were specially processed in order to weakly break P symmetry and increase viscous losses through manipulation of surface features. Subsequently, the non-reciprocal part of transmission is separated from its asymmetric reciprocal part in numerically simulated transmission spectra. The level of non-reciprocity is in agreement with the measure of broken P symmetry. The reported study contradicts commonly accepted opinion that linear dissipation cannot be a reason leading to non-reciprocity. It also opens a way for engineering passive acoustic diodes exploring the natural viscosity of any fluid as a factor leading to non-reciprocity.

Topics & Concepts

Inviscid flowReciprocity (cultural anthropology)ReciprocalAsymmetryPhysicsRotational symmetryAnisotropySymmetry (geometry)DissipationCondensed matter physicsOpticsClassical mechanicsMechanicsGeometryQuantum mechanicsMathematicsSocial psychologyPsychologyLinguisticsPhilosophyAcoustic Wave Phenomena ResearchAerodynamics and Acoustics in Jet FlowsUltrasonics and Acoustic Wave Propagation
Non-reciprocal acoustics in a viscous environment | Litcius