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Graphene optics : electromagnetic solution of canonical problems /

This book is a rigorous but concise macroscopic description of the interaction between electromagnetic radiation and structures containing graphene sheets (two-dimensional structures). It presents canonical problems with translational invariant geometries, in which the solution of the original vecto...

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Bibliographic Details
Main Authors: Depine, Ricardo A. (Author)
Corporate Authors: Morgan & Claypool Publishers.; Institute of Physics (Great Britain)
Published: Morgan & Claypool Publishers,
Publisher Address: San Rafael [California] :
Bristol [England] :
Publication Dates: [2016]
[2016]
Literature type: Book
Language: English
Series: IOP concise physics,
Subjects:
Graphene > Optical properties.
Summary: This book is a rigorous but concise macroscopic description of the interaction between electromagnetic radiation and structures containing graphene sheets (two-dimensional structures). It presents canonical problems with translational invariant geometries, in which the solution of the original vectorial problem can be reduced to the treatment of two scalar problems, corresponding to two basic polarization modes. The book includes computational problems and makes use of the Python programming language to make numerical calculations accessible to any science student. Many figures within are accompanied by Python scripts.
Item Description: "Version: 20161201"--Title page verso.
"A Morgan & Claypool publication as part of IOP Concise Physics"--Title page verso.
Carrier Form: 1 volume (various pagings) : illustrations (some color) ; 26 cm.
Bibliography: Includes bibliographical references.
ISBN: 9781681743080
9781681743097
1681743094
9781681743110
1681743116
Index Number: QD341
CLC: O613.71
Call Number: O613.71/D419
Contents: Preface -- 1. Electromagnetics of graphene -- 1.1. Macroscopic electrodynamics -- 1.2. Constitutive relations -- 1.3. From the time domain to the frequency domain -- 1.4. Isotropic media -- 1.5. Conductivity and permittivity formulations -- 1.6. Constitutive relations of graphene -- 1.7. Ohmic losses -- 1.8. Kubo model for the surface conductivity -- 1.9. Decoupled equations -- 1.10. Boundary conditions.
2. Single graphene sheet -- 2.1. Fresnel problem for a planar graphene sheet -- 2.2. The finite thickness model -- 2.3. Graphene surface plasmon polaritons.
3. Layered structures -- 3.1. Multilayers as couplers -- 3.2. Film coupler -- 3.3. ATR excitation of graphene SPPs -- 3.4. Periodic multilayers.
4. Graphene gratings -- 4.1. Boundary value problem -- 4.2. Flat graphene gratings -- 4.3. Strip gratings -- 4.4. Localized graphene surface plasmons -- 4.5. Propagating graphene surface plasmons.
5. Graphene wires -- 5.1. 2D graphene particles -- 5.2. Scattering problem -- 5.3. Scattered and absorbed power -- 5.4. Homogeneous problem -- 5.5. Connection between localized and propagating graphene surface plasmons -- 5.6. Approximate analytical expressions for [omega]n -- Appendix : Python scripts.

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