Preface Acknowledgments Author biography 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 1.8.1 Intraband conductivity 1.8.2 Interband conductivity 1.8.3 Material dispersion 1.9 Decoupled equations 1.10 Boundary conditions References 2 Single graphene sheet 2.1 Fresnel problem for a planar graphene sheet 2.1.1 s polarization 2.1.2 p polarization 2.1.3 Optics of a graphene monolayer 2.2 The finite thickness model 2.2.1 The problem for three regions 2.2.2 The 8 →0 limit 2.3 Graphene surface plasmon polaritons 2.3.1 Homogeneous problem for a graphene monolayer 2.3.2 Dispersion equations for graphene SPPs 2.3.3 Free-standing graphene 2.3.4 Solving dispersion relations References 3 Layered structures 3.1 Multilayers as couplers 3.2 Film coupler 3.2.1 s polarization 3.2.2 p polarization 3.3 ATR excitation of graphene SPPs 3.3.1 s polarization 3.3.2 p polarization 3.4 Periodic multilayers 3.4.1 N layers: transfer matrix 3.4.2 N layers: reflectivity and transmissivity 3.4.3 1D photonic crystal References 4 Graphene gratings 4.1 Boundary value problem 4.1.1 Field representation 4.1.2 Boundary conditions 4.1.3 Diffraction efficiencies and graphene absorption 4.2 Flat graphene gratings 4.2.1 s polarization 4.2.2 p polarization 4.3 Strip gratings 4.3.1 Removing strips from a graphene sheet 4.4 Localized graphene surface plasmons 4.4.1 Resonance condition 4.4.2 Near field 4.4.3 Numerical aspects 4.5 Propagating graphene surface plasmons References 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 on References Appendix: Python scripts 編輯手記
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