Wave transmission in time- and space-variant helicoidal phononic crystals

Creators: Li, F.; Chong, C.; Yang, J.; Kevrekidis, P. G.; Daraio, C.

Abstract

We present a dynamically tunable mechanism of wave transmission in one-dimensional helicoidal phononic crystals in a shape similar to DNA structures. These helicoidal architectures allow slanted nonlinear contact among cylindrical constituents, and the relative torsional movements can dynamically tune the contact stiffness between neighboring cylinders. This results in cross-talking between in-plane torsional and out-of-plane longitudinal waves. We numerically demonstrate their versatile wave mixing and controllable dispersion behavior in both wavenumber and frequency domains. Based on this principle, a suggestion toward an acoustic configuration bearing parallels to a transistor is further proposed, in which longitudinal waves can be switched on and off through torsional waves.

Additional Information

© 2014 American Physical Society. Received 26 August 2014; published 4 November 2014. The authors are grateful for the support from the USAFOSR (Grant No. FA9550-12-1-0332), ONR (Grant No. N000141410388), NSF (Grants No. CMMI-1414748, No. CMMI-1000337, No. CMMI-844540), and the ETH Zurich Foundation through the Seed Project ESC-A 06-14. We are grateful to G. Gantzounis for his valuable input on this work.

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Published - PhysRevE.90.053201.pdf

Submitted - 1408.6121v1.pdf

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PhysRevE.90.053201.pdf

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