Experimental evidence of nonreciprocal propagation in space-time modulated piezoelectric phononic crystals

Author:

Tessier Brothelande S.1ORCID,Croënne C.1ORCID,Allein F.1ORCID,Vasseur J. O.1ORCID,Amberg M.2,Giraud F.2,Dubus B.1ORCID

Affiliation:

1. Univ. Lille, CNRS, Centrale Lille, Univ. Polytechnique Hauts-de-France 1 , Junia, UMR 8520 – IEMN, F-59000 Lille, France

2. L2EP INRIA Futurs, University of Lille 2 , Villeneuve d'Ascq, France

Abstract

A nonreciprocal system composed of a one-dimensional piezoelectric phononic crystal whose periodic electrical conditions are modulated in time is presented. One-way longitudinal wave propagation is studied experimentally and compared to finite element temporal simulations. The modulation is performed by prescribing grounded or floating potential conditions on a periodic set of electrodes through external circuits. This approach makes it possible to consider a wide range of modulation speeds, and the large number of unit cells of the phononic crystal allows us to characterize experimentally the full dispersion curves of the system. This permits to observe the presence of directional bandgaps and to follow the shift in frequencies of these bandgaps as a function of the modulation speed. The experiments show the linear evolution of the central position of the bandgaps with the increase in the modulation speed, as well as their progressive closure, over a wide range of frequencies. Experiments are also used to estimate the evolution of bandgaps in a dispersive system, a problem discussed in several theoretical works but never observed experimentally. This work may constitute the foundation for experimental analysis of Floquet acoustic metamaterials, accelerated-modulation space-time metamaterials, or acoustic analog of the event horizon.

Funder

Agence Nationale de la Recherche

Publisher

AIP Publishing

Subject

Physics and Astronomy (miscellaneous)

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