Sale!

Toroidal Metamaterials: Fundamentals, Devices, and Applications – PDF ebook

Toroidal Metamaterials: Fundamentals, Devices, and Applications – PDF ebook Copyright: 2021, Author: Arash Ahmadivand; Burak Gerislioglu; Zeinab Ramezani, Publisher: Springer, Print ISBN: 9783030582883, etext ISBN: 9781351030489, Format: PDF

Original price was: $99.00.Current price is: $23.00.

Buy Toroidal Metamaterials: Fundamentals, Devices, and Applications PDF ebook by author Arash Ahmadivand; Burak Gerislioglu; Zeinab Ramezani – published by Springer in 2021 and save up to 80%  compared to the print version of this textbook. With PDF version of this textbook, not only save you money, you can also highlight, add text, underline add post-it notes, bookmarks to pages, instantly search for the major terms or chapter titles, etc.
You can search our site for other versions of the Toroidal Metamaterials: Fundamentals, Devices, and Applications PDF ebook. You can also search for others PDF ebooks from publisher Springer, as well as from your favorite authors. We have thousands of online textbooks and course materials (mostly in PDF) that you can download immediately after purchase.
Note: e-textBooks do not come with access codes, CDs/DVDs, workbooks, and other supplemental items.
eBook Details:

Full title: Toroidal Metamaterials: Fundamentals, Devices, and Applications
Edition:
Copyright year: 2021
Publisher: Springer
Author: Arash Ahmadivand; Burak Gerislioglu; Zeinab Ramezani
ISBN: 9783030582883, 9781351030489
Format: PDF

Description of Toroidal Metamaterials: Fundamentals, Devices, and Applications:
This book provides an overview of the use of toroidal moments. This includes methods of excitation, numerical analysis, and experimental measurements of associating structures. Special emphasis is placed on understanding the fundamental physics, characteristics, and real-world applications of toroidal multipoles. This book also covers a variety of both planar and 3D meta-atom and metamolecule schemes capable to sustain toroidal moments across a wide range of spectrum. It discusses the implementation of innovative approaches, for exploring the spectral features and excitation methodologies, predicting the properties of the correlating metasystems in their excited states. An applicable text for undergraduate, graduate, and postgraduate students, this book is also of interest to researchers, theorizers, and experimentalists working in optical physics, photonics, and nanotechnology.