New Directions in Thin Film Nanophotonics

Giuseppe Strangi, Sreekanth K. V., Ranjan Singh, et al.

PDF
ca. 96,29
Amazon iTunes Thalia.de Hugendubel Bücher.de ebook.de kobo Osiander Google Books Barnes&Noble bol.com Legimi yourbook.shop Kulturkaufhaus ebooks-center.de
* Affiliatelinks/Werbelinks
Hinweis: Affiliatelinks/Werbelinks
Links auf reinlesen.de sind sogenannte Affiliate-Links. Wenn du auf so einen Affiliate-Link klickst und über diesen Link einkaufst, bekommt reinlesen.de von dem betreffenden Online-Shop oder Anbieter eine Provision. Für dich verändert sich der Preis nicht.

Springer Singapore img Link Publisher

Naturwissenschaften, Medizin, Informatik, Technik / Atomphysik, Kernphysik

Beschreibung

This book highlights recent advances in thin-film photonics, particularly as building blocks of metamaterials and metasurfaces. Recent advances in nanophotonics has demonstrated remarkable control over the electromagnetic field by tailoring the optical properties of materials at the subwavelength scale which results in the emergence of metamaterials and metasurfaces. However, most of the proposed platforms require intense lithography which makes them of minor practical relevance. Stacked ultrathin-films of dielectrics, semi-conductors, and metals are introduced as an alternative platform that perform unique or similar functionalities. This book discusses the new era of thin film photonics and its potential applications in perfect and selective light absorption, structural coloring, biosensing, enhanced spontaneous emission, reconfigurable photonic devices and super lensing.​

Weitere Titel in dieser Kategorie
Cover Green Carbon Quantum Dots
Devendra Kumar Singh
Cover Nanotechnology
Ashwani Kumar

Kundenbewertungen

Schlagwörter

Biosensing, Terahertz frequencies, Perfect light absorption, Negative refraction, Critical light coupling, Ultrathin films, Phase singularity, Subwavelength nanopatterning, Nanophotonic cavity, Hyperbolic metamaterials, Gas sensing, Super lensing, Thin-film optical absorbers, Resonant gain singularities, Epsilon near zero metamaterials