Add to ORKGThe article gives a mathematical analysis of the dispersion equation for surface electromagnetic waves (SEWs) in an insulator-metal-insulator (IMI) structure. Approximate formulas are obtained that enable one to calculate the wavenumbers of long-range and short-range SEWs propagating in symmetric and asymmetric planar IMI structures. The domain of existence of long-range SEWs has been established
Closed-form expressions are derived for the number of surface waves propagating along a general mult...
In chapter 1, properties of a p-polarized surface plasmon polariton are studied, propagating circumf...
The geometric representation at a fixed frequency of the wave vector (or dispersion) surface ω(k) fo...
The article gives a mathematical analysis of the dispersion equation for surface electromagnetic wav...
The dispersion equation for additional transverse electromagnetic waves in a multicomponent amorphou...
The dispersion characteristics of surface wave propagated on a deeply corrugated metal surface are a...
We combine surface integral equations with domain decomposition to formulate and (numerically) solve...
We model guided modes for an infinitely long metallic structure in the lateral direction that is inv...
This report is devoted to the investigation of the dispersion and the spatial distribution of the el...
The nature clarification of electromagnetic fields, generated under conditions of the diffraction ex...
This is the ¯nal part of a four part series of articles on high frequency electron surface waves in ...
The aim of the investigation is to study physical regularities of the surface magnetostatic waves pr...
The analysis of the dispersion equation for surface magnetoplasmons in the Faraday configuration for...
The effect of the nonuniformity of the electron density on the dispersion properties of surface wave...
The dispersion equation for surface plasmons (SPs) at a dielectric/conductor interface has been stud...
Closed-form expressions are derived for the number of surface waves propagating along a general mult...
In chapter 1, properties of a p-polarized surface plasmon polariton are studied, propagating circumf...
The geometric representation at a fixed frequency of the wave vector (or dispersion) surface ω(k) fo...
The article gives a mathematical analysis of the dispersion equation for surface electromagnetic wav...
The dispersion equation for additional transverse electromagnetic waves in a multicomponent amorphou...
The dispersion characteristics of surface wave propagated on a deeply corrugated metal surface are a...
We combine surface integral equations with domain decomposition to formulate and (numerically) solve...
We model guided modes for an infinitely long metallic structure in the lateral direction that is inv...
This report is devoted to the investigation of the dispersion and the spatial distribution of the el...
The nature clarification of electromagnetic fields, generated under conditions of the diffraction ex...
This is the ¯nal part of a four part series of articles on high frequency electron surface waves in ...
The aim of the investigation is to study physical regularities of the surface magnetostatic waves pr...
The analysis of the dispersion equation for surface magnetoplasmons in the Faraday configuration for...
The effect of the nonuniformity of the electron density on the dispersion properties of surface wave...
The dispersion equation for surface plasmons (SPs) at a dielectric/conductor interface has been stud...
Closed-form expressions are derived for the number of surface waves propagating along a general mult...
In chapter 1, properties of a p-polarized surface plasmon polariton are studied, propagating circumf...
The geometric representation at a fixed frequency of the wave vector (or dispersion) surface ω(k) fo...