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Computational methods for nanoscale applicationsparticles, plasmons and waves /

Record Type:	Electronic resources : Monograph/item
Title/Author:	Computational methods for nanoscale applicationsby Igor Tsukerman.
Reminder of title:	particles, plasmons and waves /
Author:	Tsukerman, Igor.
Published:	Cham :Springer International Publishing :2020.
Description:	xxvii, 707 p. :ill., digital ;24 cm.
Contained By:	Springer Nature eBook
Subject:	Nanostructured materialsSimulation methods.
Online resource:	https://doi.org/10.1007/978-3-030-43893-7
ISBN:	9783030438937$q(electronic bk.)

Computational methods for nanoscale applicationsparticles, plasmons and waves /
Tsukerman, Igor.

Computational methods for nanoscale applicationsparticles, plasmons and waves /[electronic resource] :by Igor Tsukerman. - Second edition. - Cham :Springer International Publishing :2020. - xxvii, 707 p. :ill., digital ;24 cm. - Nanostructure science and technology,1571-5744. - Nanostructure science and technology..

Introduction -- Finite-Difference Schemes -- The Finite Element Method -- Flexible Local Approximation MEthods (FLAME) -- Long-Range Interactions in Free Space -- Long-Range Interactions in Heterogeneous Systems -- The Finite Difference Time Domain Method -- Nano-Photonics: Periodic Media and Band Structure Computation -- Nano-Photonics: Plasmonics -- Metamaterials and Homogenization -- Conclusion: "Plenty of Room at the Bottom" for Computational Methods.

This second edition of a well-received book presents new perspectives on modern nanoscale problems, where fundamental science meets technology and computer modeling. Along with traditional computational techniques such as finite-difference schemes, finite element analysis and Ewald summation, the book describes a new finite-difference calculus of Flexible Local Approximation MEthods (FLAME), which qualitatively improves the numerical accuracy in a variety of problems. Application areas in the book include long-range particle interactions in homogeneous and heterogeneous media, electrostatics of colloidal systems, wave propagation in photonic crystals, photonic band structure, plasmonic field enhancement, metamaterials, backward waves and negative refraction, cloaking, focusing beyond the diffraction limit, and transformation optics. The second edition incorporates new chapters on metamaterials and on the finite difference time domain method (FDTD), an exposition of absorbing boundary conditions, and Miscellany - a collection of paradoxical or controversial subjects related to the main topics of this book. A vast volume of material has been updated, revised or rewritten. Computational Methods for Nanoscale Applications, Second Edition, is accessible to specialists and graduate students in diverse areas of nanoscale science and technology, including physics, engineering, chemistry, and applied mathematics. In addition, several advanced topics will be of interest to the expert reader.

ISBN: 9783030438937$q(electronic bk.)

Standard No.: 10.1007/978-3-030-43893-7doiSubjects--Topical Terms:

873960
Nanostructured materials
--Simulation methods.

LC Class. No.: TA418.9.N35 / T78 2020

Dewey Class. No.: 620.5015118

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505 0 $a Introduction -- Finite-Difference Schemes -- The Finite Element Method -- Flexible Local Approximation MEthods (FLAME) -- Long-Range Interactions in Free Space -- Long-Range Interactions in Heterogeneous Systems -- The Finite Difference Time Domain Method -- Nano-Photonics: Periodic Media and Band Structure Computation -- Nano-Photonics: Plasmonics -- Metamaterials and Homogenization -- Conclusion: "Plenty of Room at the Bottom" for Computational Methods.
520 $a This second edition of a well-received book presents new perspectives on modern nanoscale problems, where fundamental science meets technology and computer modeling. Along with traditional computational techniques such as finite-difference schemes, finite element analysis and Ewald summation, the book describes a new finite-difference calculus of Flexible Local Approximation MEthods (FLAME), which qualitatively improves the numerical accuracy in a variety of problems. Application areas in the book include long-range particle interactions in homogeneous and heterogeneous media, electrostatics of colloidal systems, wave propagation in photonic crystals, photonic band structure, plasmonic field enhancement, metamaterials, backward waves and negative refraction, cloaking, focusing beyond the diffraction limit, and transformation optics. The second edition incorporates new chapters on metamaterials and on the finite difference time domain method (FDTD), an exposition of absorbing boundary conditions, and Miscellany - a collection of paradoxical or controversial subjects related to the main topics of this book. A vast volume of material has been updated, revised or rewritten. Computational Methods for Nanoscale Applications, Second Edition, is accessible to specialists and graduate students in diverse areas of nanoscale science and technology, including physics, engineering, chemistry, and applied mathematics. In addition, several advanced topics will be of interest to the expert reader.
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