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New Directions in Thin Film Nanophotonics, 1st ed. 2019 Progress in Optical Science and Photonics Series, Vol. 6

Langue : Anglais

Auteurs :

Couverture de l’ouvrage New Directions in Thin Film Nanophotonics
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.?

Chapter 1: Realization of point of darkness and extreme phase singularity in lithography-free nanophotonic cavity.

Chapter 2: Critical light coupling in thin and ultrathin films for structural coloring, gas sensing and energy applications.

Chapter 3: Phase change material-based planar nanophotonic cavity for tunable perfect absorption at visible frequencies.

Chapter 4: Experimental demonstration of generalized Brewster-angle for transverse electric and magnetic waves using thin-film optical absorbers.

Chapter 5: Subwavelength nanopatterning using thin metal films.

Chapter 6: Hyperbolic metamaterials and their applications for ultra-sensitive biosensing.

Chapter 7: Dielectric and resonant gain singularities in hyperbolic metamaterials.

Chapter 8: Graphene and topological insulator-based hyperbolic metamaterials for negative refraction at terahertz frequencies.

Chapter 9: Environmental control of the topological transition in metal/photoemissive‐blend metamaterials.

Chapter 10: Active hyperbolic metamaterials for reconfigurable photonic device applications.
Dr. Sreekanth K.V. received his PhD degree in photonics from Nanyang Technological University, Singapore. He then worked as a Postdoctoral researcher for three years at the department of Physics, Case Western Reserve University, USA and one year at the Engineering Product Development department, Singapore University of Technology and Design (SUTD), Singapore. He is also serving as an Editorial Board member for Scientific Reports, a journal by Nature publishing group. He is currently working as a Project Leader at the Centre for Disruptive Photonic Technologies (CDPT), Nanyang Technological University.

Dr. Mohamed ElKabbash obtained his bachelors in Law and Master in Law from Alexandria University, Egypt. He then obtained a B. A. in physics and economics from Illinois Wesleyan University, IL, USA, and PhD in physics from Case Western Reserve University, Cleveland, OH, USA. He is currently a postdoctoral associate at the high intensity femtosecond laser lab, the institute of optics, University of Rochester, NY, USA.​

Dr. Vincenzo Caligiuri received his Master Degree in Electronic Engineering in 2013 at the University of Calabria. In 2017 he received his Ph.D. in Physics and Material Science at the University of Calabria, in collaboration with the Nanoplasm laboratory of Case Western Reserve University, Technical University of Denmark (DTU) and CNR Nanotech. At the moment, he is working as a Post-Doc at the Nanochemistry Department of the Italian Institute of Technology.


Prof. Ranjan Singh is an Assistant Professor at the School of Physical and Mathematical Sciences, Nanyang Technological University, Singapore. He received his M. S. degree in Optoelectronics and Laser Technology from Cochin University of Science and Technology, India and PhD in photonics from Oklahoma State University, USA. Before joining NTU, he was a postdoctoral rese

Highlights recent advances in active thin-film photonics, and understanding of thin-film photonics for reconfigurable photonic devices

Discusses thin-film photonics in the context of building blocks of lithography-free nanophotonic cavities and metamaterials?

Also highlights the applications of thin-films for advanced biosensing, gas sensing, negative refraction and perfect absorption

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Date de parution :

Ouvrage de 172 p.

15.5x23.5 cm

Disponible chez l'éditeur (délai d'approvisionnement : 15 jours).

105,49 €

Ajouter au panier

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