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Electromagnetic Wave Propagation, Radiation, and Scattering
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TLDR
In this article, the fundamental field equations of wave propagation in homogeneous and layered media waveguides and cavities have been studied, including the effects of a dipole on the conducting earth, inverse scattering radiometry, and interferometry numerical techniques.Abstract:
Fundamental field equations waves in homogeneous and layered media waveguides and cavities Green's functions radiation from apertures and beam waves periodic structures and coupled mode theory dispersion and anisotropic media antennas, apertures and arrays scattering of waves by conducting and di-electric objects waves in cylindrical structures, spheres and wedges scattering of complex objects geometric theory of diffraction and low fequency techniques planar layers, strip lines, patches and apertures radiation from a dipole on the conducting earth, inverse scattering radiometry, noise temperature and interferometry numerical techniques.read more
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Indicators for the Signal Degradation and Optimization of Automotive Radar Sensors Under Adverse Weather Conditions
TL;DR: In this article, an analysis of the effects of water film and rain on millimeter-wave propagation has been presented based on the fundamental formulation of wave propagation and scattering in stratified as well as random media.
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Multi-Walled Carbon Nanotubes Composites for Microwave Absorbing Applications
TL;DR: In this paper, the reflection coefficient of a single-layer structure backed by a metallic plate was simulated based on the measured permittivity, and the influence of morphological MWCNT parameters (i.e., aspect ratio and specific surface area) on the reflected reflection coefficient was evaluated.
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Surface plasmon resonance of electrochemically deposited Au-black
TL;DR: In this paper, a five-layer model consisting of glass, Cr, Au, Au-black, and solution layers was proposed to explain the high resonance angle of the Au black plate.
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Lumped element models of double negative metamaterial-based transmission lines
TL;DR: In this paper, double negative metamaterials are used to obtain low-pass, high-pass and band-pass dispersion properties for lossless and lossy transmission lines.
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The Sommerfeld Halfspace Problem Redux: Alternative Field Representations, Role of Zenneck and Surface Plasmon Waves
TL;DR: In this paper, the problem of a vertical Hertzian dipole radiating in the presence of a lossy conducting halfspace was revisited using rigorous operator theory concepts and the characteristic Green function procedure.