International audienceThe influence of material loss on the complex band structure of two-dimensional phononic crystals is investigated. A viscoelasticity model is added to the extended plane-wave expansion (EPWE) method, with viscosity proportional to the frequency. It is found that losses have a stronger influence on the real than on the imaginary part of Bloch waves, in contrast with propagation in homogeneous media. Flat bands, i.e., bands initially showing low group velocity without losses, acquire an enhanced damping as compared to bands with larger group velocities. Losses are also found to limit the appearance of large group slownesses, or conversely small group velocities
International audienceEvanescent waves must be considered in propagation problems whenever scatterin...
This work presents a generalized physical interpretation of unconventional dispersion asymmetries as...
International audienceThe diffraction of elastic waves on a two-dimensional finite phononic crystal ...
International audienceThe influence of material loss on the complex band structure of two-dimensiona...
International audiencePhononic crystals composed of lossy materials with viscosity constants proport...
International audienceThe consideration of material losses in phononic crystals leads naturally to t...
The extended plane wave expansion (EPWE) formulation is derived to obtain the complex band structure...
Phononic crystals (PCs) are periodic structures obtained by the spatial arrangement of materials wit...
Through deliberate material and geometrical design of the internal structure, phononic crystals and ...
International audiencePropagation of elastic waves in acoustic metamaterials based on locally resona...
This work investigates wave attenuation and dissipation mechanisms in viscoelastic phononic crystals...
International audiencePhononic crystals are two- or three-dimensional periodic structures that are c...
International audienceThe band structure is a central concept in the field of phononics. Indeed, cap...
In the present work, the wave propagation in a viscoelastic phononic crystal rod with internal perio...
International audiencePhononic crystals are artificial periodic structures that can alter efficientl...
International audienceEvanescent waves must be considered in propagation problems whenever scatterin...
This work presents a generalized physical interpretation of unconventional dispersion asymmetries as...
International audienceThe diffraction of elastic waves on a two-dimensional finite phononic crystal ...
International audienceThe influence of material loss on the complex band structure of two-dimensiona...
International audiencePhononic crystals composed of lossy materials with viscosity constants proport...
International audienceThe consideration of material losses in phononic crystals leads naturally to t...
The extended plane wave expansion (EPWE) formulation is derived to obtain the complex band structure...
Phononic crystals (PCs) are periodic structures obtained by the spatial arrangement of materials wit...
Through deliberate material and geometrical design of the internal structure, phononic crystals and ...
International audiencePropagation of elastic waves in acoustic metamaterials based on locally resona...
This work investigates wave attenuation and dissipation mechanisms in viscoelastic phononic crystals...
International audiencePhononic crystals are two- or three-dimensional periodic structures that are c...
International audienceThe band structure is a central concept in the field of phononics. Indeed, cap...
In the present work, the wave propagation in a viscoelastic phononic crystal rod with internal perio...
International audiencePhononic crystals are artificial periodic structures that can alter efficientl...
International audienceEvanescent waves must be considered in propagation problems whenever scatterin...
This work presents a generalized physical interpretation of unconventional dispersion asymmetries as...
International audienceThe diffraction of elastic waves on a two-dimensional finite phononic crystal ...