We study all-evanescent eigenmodes of a one-dimensional infinite periodic structure with alternating left-handed and right-handed materials that propagate perpendicularly to the surface or guided eigenmodes. Investigation of dispersion properties of such Bloch modes is shown to be crucial for understanding of an efficient radiation energy transport across the periodic multilayer structure. Frequency pass bands and gaps are found as a function of the two orthogonal wave vectors: the Bloch wave vector k$\text{}_{B}$ and the surface wave vector k$\text{}_{S}$. We demonstrate that pass bands of both TE- and TM-polarizations can exist and, under certain conditions, may overlap
The dispersive relations of Bloch waves in the periodic laminated structure formed by periodically r...
This paper is concerned with waves in locally periodic media, in the high-frequency limit where the ...
Effective properties of infinite periodic structures are governed by the dispersion law of the Bloch...
Photonic crystals, frequency-selective surfaces, gratings, and many so-called metamaterials are comp...
Bloch theorem provides a useful tool to analyze wave propagation in periodic systems. While this met...
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...
Bloch theorem is useful for analyzing wave propagation in periodic systems. It has been widely used ...
Light transport in a metal with two-dimensional hole arrays is considered. Analytical expressions fo...
International audienceWe simulate the s-polarized electromagnetic field diffracted by a truncated tw...
International audienceBloch waves are considered for a class of explicitly solvable two-dimensional ...
Bloch waves in infinite periodic structures - much in vogue in the present metamaterial age [1, 2] -...
Intra mode coupling effects and degeneracy conditions are thoroughly investigated in the scenario of...
International audienceWe discuss here under which conditions a periodic line with a twist-symmetric ...
The Floquet-Bloch waves in periodically inhomogeneous chiral media are considered. The wave vectors ...
The dispersive relations of Bloch waves in the periodic laminated structure formed by periodically r...
This paper is concerned with waves in locally periodic media, in the high-frequency limit where the ...
Effective properties of infinite periodic structures are governed by the dispersion law of the Bloch...
Photonic crystals, frequency-selective surfaces, gratings, and many so-called metamaterials are comp...
Bloch theorem provides a useful tool to analyze wave propagation in periodic systems. While this met...
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...
Bloch theorem is useful for analyzing wave propagation in periodic systems. It has been widely used ...
Light transport in a metal with two-dimensional hole arrays is considered. Analytical expressions fo...
International audienceWe simulate the s-polarized electromagnetic field diffracted by a truncated tw...
International audienceBloch waves are considered for a class of explicitly solvable two-dimensional ...
Bloch waves in infinite periodic structures - much in vogue in the present metamaterial age [1, 2] -...
Intra mode coupling effects and degeneracy conditions are thoroughly investigated in the scenario of...
International audienceWe discuss here under which conditions a periodic line with a twist-symmetric ...
The Floquet-Bloch waves in periodically inhomogeneous chiral media are considered. The wave vectors ...
The dispersive relations of Bloch waves in the periodic laminated structure formed by periodically r...
This paper is concerned with waves in locally periodic media, in the high-frequency limit where the ...
Effective properties of infinite periodic structures are governed by the dispersion law of the Bloch...