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石墨烯光学:经典问题的电磁解决方案(英文版)
作者:(美)里卡多·A.德品
出版社:哈尔滨工业大学出版社
出版时间:2021-06-01
ISBN:9787560394725
定价:¥68.00
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内容简介
本书是一部英文版的物理学专著,介绍了石墨烯的相关理论,全书共分5章,第1章概述了宏观电磁学的主题,这些主题对于理解用于石墨烯电磁响应模型的方法至关重要,随后各章对具有不同对称度的石墨烯结构进行电磁分析,这些分析从展现二维连续平移对称的几何图形开始,如菲涅尔问题,石墨烯平面波导,内容涉及石墨烯的电磁学、单层石墨烯薄膜、层状结构、石墨烯光栅及石墨烯电线等。本书可供高年级本科生、研究生和博士后及相关爱好者参考阅读。
作者简介
里卡多·A.德品(Ricardo A.Depine),他出生于阿根廷布宜诺斯艾利斯。他是布宜诺斯艾利斯大学(UBA)物理系的终身教授,负责应用电磁学小组的研究活动,并教授经典的电动力学、波、光子学、光学,以及连续介质力学课程。他还是国家科学技术研究委员会(CONICET)的首席研究员。他目前的研究活动包括纳米结构的电磁响应、粗糙表面的散射、光子晶体、材料和光子学等。
目录
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
编辑手记
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
编辑手记
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