This work presents a gradient index device for insulating from vibrations a circular area of a thin plate. The gradient of the refractive index is achieved exploiting the thickness-dependence of the dispersion relation of flexural waves in thin plates. A well-like thickness profile in an annular region of the plate is used to mimic the combination of an attractive and repulsive potentials, focusing waves at its bottom and dissipating them by means of an absorptive layer placed on top. The central area is therefore isolated from vibrations, while they are dissipated at the bottom of the well. Simulations have been done using the multilayer multiple scattering method and the results prove their broadband efficiency and omnidirectional propert...
International audienceElastic guided wave focusing is of great interest for applications such as vib...
This paper demonstrates how flexural wave propagation in a thin plate can be modeled by estimating t...
In this paper we present some recent experimental results on new lightweight and broad-band damping ...
Copyright (2014) American Institute of Physics. This article may be downloaded for personal use only...
International audienceWe propose a design of a periodically perforated thin plate leading to omni-di...
In this paper, the linear transformation method (LTM) to control flexural waves propagating in thin ...
This paper describes the design of a thin plate whose thickness is tailored in order to focus bendin...
International audienceThis paper deals with the numerical design of a directional invisibility cloak...
A numerical procedure is proposed for the multiple scattering analysis of flexural waves on a thin p...
Elastic wave propagation in a three-layered plate with high-contrast mechanical and geometric proper...
This paper made the cover of PRL and gave rise to numerous press articles, including in Popular Scie...
International audienceThe ability of left-handed materials to overcome the diffraction limit was fir...
This is the final version. Available from the American Physical Society via the DOI in this record. ...
Control of wave propagation in electromagnetics and acoustics experienced a large development these ...
[EN] This Letter reports the feasibility of a structure specifically designed for the control of fle...
International audienceElastic guided wave focusing is of great interest for applications such as vib...
This paper demonstrates how flexural wave propagation in a thin plate can be modeled by estimating t...
In this paper we present some recent experimental results on new lightweight and broad-band damping ...
Copyright (2014) American Institute of Physics. This article may be downloaded for personal use only...
International audienceWe propose a design of a periodically perforated thin plate leading to omni-di...
In this paper, the linear transformation method (LTM) to control flexural waves propagating in thin ...
This paper describes the design of a thin plate whose thickness is tailored in order to focus bendin...
International audienceThis paper deals with the numerical design of a directional invisibility cloak...
A numerical procedure is proposed for the multiple scattering analysis of flexural waves on a thin p...
Elastic wave propagation in a three-layered plate with high-contrast mechanical and geometric proper...
This paper made the cover of PRL and gave rise to numerous press articles, including in Popular Scie...
International audienceThe ability of left-handed materials to overcome the diffraction limit was fir...
This is the final version. Available from the American Physical Society via the DOI in this record. ...
Control of wave propagation in electromagnetics and acoustics experienced a large development these ...
[EN] This Letter reports the feasibility of a structure specifically designed for the control of fle...
International audienceElastic guided wave focusing is of great interest for applications such as vib...
This paper demonstrates how flexural wave propagation in a thin plate can be modeled by estimating t...
In this paper we present some recent experimental results on new lightweight and broad-band damping ...