# Steerable sound transport in a 3D acoustic network

**Authors:** Bai-Zhan Xia, Jun-Rui Jiao, Hong-Qing Dai, Sheng-Wen Yin, Sheng-Jie, Zheng, Ting-Ting Liu, Ning Chen, De-Jie Yu

arXiv: 1703.02294 · 2017-11-22

## TL;DR

This paper introduces a novel 3D acoustic device that enables steerable, quasi-lossless sound transport along arbitrary pathways in a network, achieved through symmetry-breaking in a tetrahedral cavity design.

## Contribution

The work presents a new acoustic device design that allows flexible, asymmetric sound transport in 3D networks without complex modulation or high power levels.

## Key findings

- Demonstrated unimpeded sound transport between waveguides over a wide frequency range.
- Achieved directional sound flow control near eigenmodes without interference.
- Constructed a 3D acoustic network with flexible sound pathway routing.

## Abstract

Quasi-lossless and asymmetric sound transports, which are exceedingly desirable in various modern physical systems, are almost based on nonlinear or angular-momentum biasing effects with extremely high power levels and complex modulation schemes. A practical route for the steerable sound transport along any arbitrary acoustic pathway, especially in a 3D acoustic network, could revolutionize the sound power flow and the sound communication. Here, we design an acoustic device consisting of a regular-tetrahedral cavity with four cylindrical waveguides. A smaller regular-tetrahedral solid in this cavity is eccentrically emplaced to break its spatial symmetry. The numerical and experimental results show that the sound power flow can unimpededly transport between two waveguides away from the eccentric solid within a wide frequency range. Furthermore, in the vicinity of eigenmode, the sound waves from various waveguides can transport to different waveguides, respectively along the compressed and broadened pathways without mutually interference. Endowed with these quasi-lossless and asymmetric transport characteristics, we construct a 3D acoustic network, in which the sound power flow can flexibly propagate along arbitrary sound pathways defined by our acoustic devices with eccentrically-emplaced regular-tetrahedral solids.

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Source: https://tomesphere.com/paper/1703.02294