Electromagnetic Scattering


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Figure 1. Directional scattering induced from periodic spoof Mie resonant structure In the following, we will discuss the directional scattering from the designed structure based on these resonant modes demonstrated in Fig. Figure 2. Figure 3. Directional scattering induced from quasiperiodic spoof Mie resonant structure Furthermore, we also design the quasiperiodic spoof Mie resonant structure by alternately inserting dielectric materials A and B into the slits as in Fig.

Figure 4. Figure 5. Figure 6. Author Contributions H. Notes Competing Interests The authors declare no competing interests.

Electromagnetic Scattering and its Applications | L. P. Bayvel | Springer

Footnotes Publisher's note: Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations. References 1. Optically resonant dielectric nanostructures.


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Yang ZJ, et al. Dielectric nanoresonators for light manipulation. Electromagnetic scattering by magnetic spheres. Liu W, et al. Ultra-directional forward scattering by individual core-shell nanoparticles. Broadband unidirectional scattering by magneto-electric core-shell nanoparticles.

Electromagnetic scattering laws in Weyl systems

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Mie resonance-based dielectric metamaterials. Soukoulis CM, Wegener M. Past achievements and future challenges in the development of three-dimensional photonic metamaterials. Strong magnetic response of submicron silicon particles in the infrared. Ginn JC, et al. Realizing optical magnetism from dielectric metamaterials. Wang C, et al. Broadband optical scattering in coupled silicon nanocylinders. Staude I, et al. Tailoring directional scattering through magnetic and electric resonances in subwavelength silicon nanodisks.

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Unidirectional light scattering with high efficiency at optical frequencies based on low-loss dielectric nanoantennas. Localized spoof plasmons arise while texturing closed surfaces. Ultrathin plasmonic metamaterial for spoof localized surface plasmons. Laser Photon. Design and modeling of spoof surface plasmon modes-based microwave slow-wave transmission line. IEEE Trans. Theory Techn. Spoof plasmon-based slow-wave excitation of dielectric resonator antennas. Antennas Propagat. Low-loss spoof surface plasmon slow-wave transmission lines with compact transition and high isolation. Localized spoof surface plasmons in textured open metal surfaces.

Li Z, et al. Localized spoof surface plasmons based on closed subwavelength high contrast gratings: concept and microwave-regime realizations. Naqvi, "Electromagnetic scattering form parallel perfect electromagnetic conductor cylinders of circular cross-sections using iterative procedure," Journal of Electromagnetic Waves and Applications , Vol. Fiaz, M. Ghaffar, and Q. Waves and Appl.

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Masood, and Q. Waves Appl. Hehl, "On the boundary-value problems and the validity of the post constraint in modern electromagnetism," Optik-International Journal for Light and Optik-International Journal for Light and Electron Optics , arXiv: Tang, C. Thesis, Harvard University, Chen, H. Massoudi, H. Damaskos, and P. Waves Appl. Qu, Z. Wu, Q.

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Frezza, and N. A 32, — Mangini, N. Tedeschi, F. Frezza, and A.

Electromagnetic Scattering

A 31, — Frezza, L. Pajewski, C. Ponti, G. Schettini, and N. Remote Sens. Mangini, L. Pajewski, G.

Electromagnetic Scattering by Particles and Particle Groups An Introduction

A 30, — Fiaz, F. Ponti, and G.

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