Analysis of a Sugimoto's model of nonlinear acoustics in an array of Helmholtz resonators
Résumé
A coupled system involving a nonlinear scalar PDE and a linear ODE is theoretically
investigated. This hypebolic system with relaxation models the propagation of nonlinear
waves in a waveguide connected to Helmholtz resonators, this device being an example
of a nonlinear acoustic metamaterial. In a previous paper [Sugimoto, J. Fluid. Mech.
1992], it has been shown that this device allows also the propagation of acoustic solitons.
In the present paper, the mathematical properties of the coupled system are analysed:
formation of singularity in finite time, existence of global smooth solutions for small data,
existence of entropy solutions in fractional BV spaces and uniqueness with a single family
of entropies. New results are also deduced about weakly coupled systems. Numerical
simulations illustrate these findings.
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