Wave propagation in complex periodic systems is often addressed with the Bloch theorem, and consists in applying periodic boundary conditions to a discretized unit cell. While this method has been developed for structures periodic by translation, in a recent work, for quasi-one-dimensional wave propagation, it has been shown that screw (translation plus rotation) and glide (translation plus reflection) periodicities can be accounted for as well, keeping the Cartesian coordinate system but revisiting the periodic boundary conditions. The goal of the present paper is to generalize this concept to quasi-two-dimensional wave propagation (two dimensional waves propagating in three dimensional structures). Dispersion relations for a set of reduc...
The free propagation of elastic waves through periodic microstructured materials can be studied by t...
The free propagation of elastic waves through periodic microstructured materials can be studied by ...
International audiencePhononic crystals are two- or three-dimensional periodic structures that are c...
Wave propagation in complex periodic systems is often addressed with the Bloch theorem, and consists...
Bloch theorem is useful for analyzing wave propagation in periodic systems. It has been widely used ...
Finding the minimal unit cell – Bloch theorem for structures with translation and reflection or rota...
Bloch theorem provides a useful tool to analyze wave propagation in periodic systems. While this met...
With the emergence of isogeometric analysis (IGA), numerical rotation-free solutions to high-order p...
The wave propagation behavior for one-dimensional rods, beams, and two-dimensional periodic lattice ...
Bloch waves in infinite periodic structures - much in vogue in the present metamaterial age [1, 2] -...
The present work is devoted to a theoretical analysis and numerical modeling of elastic wave propaga...
The present work is devoted to a theoretical analysis and numerical modeling of elastic wave propaga...
International audienceBloch waves are considered for a class of explicitly solvable two-dimensional ...
The well-known Bloch-Floquet waves (BFW) are not the only manifestation of periodic structure waves ...
Plane wave propagation in a chiral lattice is investigated through the application of Bloch's theore...
The free propagation of elastic waves through periodic microstructured materials can be studied by t...
The free propagation of elastic waves through periodic microstructured materials can be studied by ...
International audiencePhononic crystals are two- or three-dimensional periodic structures that are c...
Wave propagation in complex periodic systems is often addressed with the Bloch theorem, and consists...
Bloch theorem is useful for analyzing wave propagation in periodic systems. It has been widely used ...
Finding the minimal unit cell – Bloch theorem for structures with translation and reflection or rota...
Bloch theorem provides a useful tool to analyze wave propagation in periodic systems. While this met...
With the emergence of isogeometric analysis (IGA), numerical rotation-free solutions to high-order p...
The wave propagation behavior for one-dimensional rods, beams, and two-dimensional periodic lattice ...
Bloch waves in infinite periodic structures - much in vogue in the present metamaterial age [1, 2] -...
The present work is devoted to a theoretical analysis and numerical modeling of elastic wave propaga...
The present work is devoted to a theoretical analysis and numerical modeling of elastic wave propaga...
International audienceBloch waves are considered for a class of explicitly solvable two-dimensional ...
The well-known Bloch-Floquet waves (BFW) are not the only manifestation of periodic structure waves ...
Plane wave propagation in a chiral lattice is investigated through the application of Bloch's theore...
The free propagation of elastic waves through periodic microstructured materials can be studied by t...
The free propagation of elastic waves through periodic microstructured materials can be studied by ...
International audiencePhononic crystals are two- or three-dimensional periodic structures that are c...