Dielectric Metamaterials

• Author : Igal Brener,Sheng Liu,Isabelle Staude,Jason Valentine,Christopher Holloway
• Publisher : Woodhead Publishing
• Release : 15 October 2019

Dielectric Metamaterials: Fundamentals, Designs and Applications links fundamental Mie scattering theory with the latest dielectric metamaterial research, providing a valuable reference for new and experienced researchers in the field. The book begins with a historical, evolving overview of Mie scattering theory. Next, the authors describe how to apply Mie theory to analytically solve the scattering of electromagnetic waves by subwavelength particles. Later chapters focus on Mie resonator-based metamaterials, starting with microwaves where particles are much smaller than the free space

• Author : Elena Semouchkina
• Publisher : Woodhead Publishing
• Release : 15 May 2021

Dielectric Metamaterials in Transformation Optics and Photonics addresses the complexity of electromagnetic responses from arrays of dielectric resonators, which are often omitted from consideration when using simplified metamaterials concepts. The book's authors present a thorough consideration of dielectric resonances in different environments which is needed to design optical and photonic devices. Dielectric metamaterials and photonic crystals are compared, with their effects analyzed. Design approaches and examples of designs for invisibility cloaks based on artificial media are also included. Current challenge

• Author : Parikshit Moitra
• Publisher : Unknown
• Release : 22 June 2021

• Author : Anonim
• Publisher : Unknown
• Release : 22 June 2021

A resonant dielectric metamaterial comprises a first and a second set of dielectric scattering particles (e.g., spheres) having different permittivities arranged in a cubic array. The array can be an ordered or randomized array of particles. The resonant dielectric metamaterials are low-loss 3D isotropic materials with negative permittivity and permeability. Such isotropic double negative materials offer polarization and direction independent electromagnetic wave propagation.

• Author : Anonim
• Publisher : Unknown
• Release : 22 June 2021

Toroidal multipoles are the terms missing in the standard multipole expansion; they are usually overlooked due to their relatively weak coupling to the electromagnetic fields. Here, we propose and theoretically study all-dielectric metamaterials of a special class that represent a simple electromagnetic system supporting toroidal dipolar excitations in the THz part of the spectrum. We show that resonant transmission and reflection of such metamaterials is dominated by toroidal dipole scattering, the neglect of which would result in a misunderstanding interpretation

• Author : Anonim
• Publisher : Unknown
• Release : 22 June 2021

Today’s technological needs are demanding faster and smaller optical components. Optical microcavities offer a high confinement of electromagnetic field in a small volume, with dimensions comparable to the wavelength of light, which provides a unique system for the enhancement of light-matter interactions on the nanoscale. However, further reducing the size of the optical cavity (from microcavity to nanocavity) is limited to the fundamental diffraction limit. In hyperbolic metamaterials, large wave vectors can be achieved. Therefore, optical cavities, created from

• Author : Luca Dal Negro,Mark Brongersma,Joseph M. Fukumoto,L. Novotny
• Publisher : Unknown
• Release : 19 November 2009

The MRS Symposium Proceeding series is an internationally recognised reference suitable for researchers and practitioners.

• Author : Yongmin Liu
• Publisher : Unknown
• Release : 22 June 2021

• Author : Anonim
• Publisher : Unknown
• Release : 22 June 2021

• Author : Yuanmu Yang
• Publisher : Unknown
• Release : 22 June 2021

• Author : Anonim
• Publisher : Unknown
• Release : 22 June 2021

In order to qualitatively characterize the coupling between DRs in the array, we have employed the equivalent circuit model (ECM) for a 3D DR array under EM wave incidence at magnetic resonance by taking into account inter-resonator coupling along three axes of the lattice. It was shown that the changes of coupling coefficients at the variations of the array lattice parameters explain all the changes of the magnetic resonance band.

• Author : Anonim
• Publisher : Unknown
• Release : 22 June 2021

Fano-resonant plasmonic metamaterials and nanostructures have become a major focus of the nanophotonics fields over the past several years due their ability to produce high quality factor (Q-factor) resonances. The origin of such resonances is the interference between a broad and narrow resonance, ultimately allowing suppression of radiative damping. However, Fano-resonant plasmonic structures still suffer non-radiative damping due to Ohmic loss, ultimately limiting the achievable Q-factors to values less than ~10. Here, we report experimental demonstration of Fano-resonant silicon-based metamaterials that

• Author : Anonim
• Publisher : Academic Press
• Release : 10 July 2019

Photonic Crystal Metasurface Optoelectronics, Volume 101, covers an emerging area of nanophotonics that represents a new range of optoelectronic devices based on free-space coupled photonic crystal structures and dielectric metasurfaces. Sections in this new release include Free-space coupled nanophotonic platforms, Fano resonances in nanophotonics, Fano resonances in photonic crystal slabs, Transition from photonic crystals to dielectric metamaterials, Photonic crystals for absorption control and energy applications, Photonic crystal membrane reflector VCSELs, Fano resonance filters and modulators, and Fano resonance photonic crystal sensors.

• Author : Anonim
• Publisher : Unknown
• Release : 22 June 2021

• Author : Anonim
• Publisher : Unknown
• Release : 22 June 2021