Plasmonic effects in metal-semiconductor nanostructures

Plasmonic effects in metal-semiconductor nanostructures

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Hauptverfasser: Toropov, Aleksej A. (VerfasserIn), Šubina, Tatʹjana (VerfasserIn)
Format: Buch
Sprache:English
Veröffentlicht: Oxford [u.a.] Oxford Univ. Press 2015
Ausgabe:1. ed.
Schriftenreihe:Series on semiconductor science and technology 19
Schlagworte:
Halbleiter
Quantenoptik
Oberflächenplasmon
Nanostruktur
Lichtemission
Metall
Plasmon
Online-Zugang:Klappentext
Inhaltsverzeichnis
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adam_text SERIES ON SEMICONDUCTOR SCIENCE AND TECHNOLOGY · 19 Metal-semiconductor nanostructures represent an important new class of materials employed in designing advanced optoelectronic and nanophotonic devices, such as plasmonic nanolasers, plasmon-enhanced light-emitting diodes and solar cells, plasmonic emitters of single photons, and quantum devices operating in infrared and terahertz domains. The combination of surface plasmon resonances in conducting structures, providing strong concentration of an electromagnetic optical field nearby, with sharp optical resonances in semiconductors, which are highly sensitive to external electromagnetic fields, creates a platform to control light on the nanoscale. The design of the composite metal-semiconductor system imposes the consideration of both the plasmonic resonances in metal and the optical transitions in semiconductors-a key issue being their resonant interaction providing a coupling regime. In this book the reader will find descriptions of electrodynamics of conducting structures, quantum physics of semiconductor nanostructures, and guidelines for advanced engineering of metal-semiconductor composites. These constituents form together the physical basics of the metal-semiconductor plasmonics, underlying many effective practical applications. The list of covered topics also includes the review of recent results, such as the achievement of a strong coupling regime, and the preservation of non-classical statistics of photons in plasmonic cavities combined with semiconductor nanostructures. Alexey A. Toropov and Tatiana V. Shubina are principal researchers at the Ioffe Institute of the Russian Academy of Sciences, St Petersburg. Plasmons in metal-semiconductors have become not only an active field of research recently, they also continue to gain practical relevance. For both students and researchers interested in this fascinating field, this book is an excellent introduction and a valuable reference. Thomas Heinzel, University of Düsseldorf This book provides the reader with a comprehensive view of the fascinating properties of light-matter interaction in metal-semiconductor plasmonic nanostructures, which for instance find applications in cutting-edge nanophotonic devices like single-photon sources or nanolasers. The theoretical background of electromagnetic and quantum phenomena is clearly introduced together with experimental data collected on various materials, including wide-bandgap semiconductors. This book is thus perfectly appropriate for graduate-level students and researchers, who want to enter the field or dig deeper into the physics of plasmonics in metal-semiconductor nanostructures Nicolas Grandjean, Institute of Condensed Matter Physics Cover image: Shows stained glass at the Basilica of Notre-Dame of Orcivai, France. One of ways to colour the transmitted light is relying on plasmonic properties of metallic nanoparticles inserted into glass. ISBN 978-0-19-969931-5 Contents F 1 Introduction 1 1.1 Milestones of plasmonics 2 1.2 Scope of this book 8 Part 1 Fundamentals 2 Electrodynamics of Metal Structures 13 2.1 Basic electrodynamics 14 2.1.1 Plane-wave propagation 18 2.1.2 Boundary conditions between two media 19 2.1.3 Plane waves at a planar interface 20 2.1.4 Transverse and longitudinal electromagnetic waves 25 2.2 Dielectric function of free electrons 26 2.2.1 Lorentz oscillator model 26 2.2.2 Drude theory 29 2.2.3 Electromagnetic waves in metals and bulk plasmons 30 2.3 Surface plasmon polaritons at plane interfaces 32 2.3.1 Dispersion relations and conditions of existence 32 2.3.2 Excitation of surface plasmon polaritons 35 2.3.3 Field localization and concentration 37 2.3.4 Surface plasmon polaritons in multi-layer structures 38 2.4 Localized surface plasmons in metal particles 39 2.4.1 Perfect spheres in the quasi-static approximation 40 2.4.2 Ellipsoids in the quasi-static approximation 42 2.4.3 Mie theory 44 2.4.4 Scattering and absorption of light by a small particle 48 Concluding remarks 51 3 Electronic Excitations in Semiconductors 52 3.1 Basic band theory 53 3.1.1 Bloch’s theorem and electronic band structures 53 3.1.2 Symmetry operations and classification of electronic states 57 3.2 Electronic band structures and the k · p theory 60 3.2.1 The k · p method for nondegenerate bands 61 xii Contents 3.2.2 Electronic band structure of zinc-blende crystals 64 3.2.3 Electronic band structure of wurtzite crystals 74 Concluding remarks 82 4 Optics in Semiconductors 83 4.1 Density of states 84 4.2 Interband optical absorption and emission 86 4.2.1 Interband optical transitions by Fermi’s golden rule 87 4.2.2 Einstein coefficients 91 4.2.3 Optical absorption and gain 94 4.2.4 Spontaneous emission 97 4.3 Interband momentum matrix elements 99 4.3.1 Interband momentum matrix elements in zinc-blende crystals 99 4.3.2 Interband momentum matrix elements in wurtzite crystals 101 4.4 Excitons 102 4.4.1 Effective mass approximation 103 4.4.2 Wannier-Mott excitons 104 4.4.3 Classification of excitonic states by symmetry 110 4.4.4 Excitons in zinc-blende and wurtzite crystals 113 4.4.5 Exciton polaritons 114 Concluding remarks 118 Part 2 Materials 5 Conducting Materials 121 5.1 Applicability of conducting materials for plasmonics 123 5.2 Optical properties of real metals 125 5.3 Interband transitions in noble and polyvalent metals 127 5.4 Dielectric functions of silver and gold 128 5.5 Doped semiconductors 130 5.6 Dielectric functions of non-stoichiometric and nanostructured matter 134 5.7 Graphene as a plasmonic material 138 Concluding remarks 142 6 Semiconductor Materials and Nanostructures 143 6.1 Semiconductor materials and heterostructures 144 6.1.1 III-V and El·-VI semiconductor materials 144 6.1.2 Pseudomorphic heterostructures 147 6.1.3 Electronic bands in strained zinc-blende heterostructures 148 6.1.4 Electronic bands in strained wurtzite heterostructures 150 Contents xiii 6.2 Quantum wells 151 6.2.1 Quantum well band structures in the effective mass approximation 152 6.2.2 Zinc-blende and wurtzite semiconductor quantum wells 160 6.2.3 Interband absorption and gain in quantum wells 163 6.2.4 Interband matrix elements in zinc-blende quantum wells 165 6.2.5 Interband matrix elements in wurtzite quantum wells 170 6.2.6 Excitonic transitions in quantum wells 173 6.2.7 Fine structure of 2D excitons 178 6.3 Quantum dots 180 6.3.1 Quantum dot band structures in the effective mass approximation 182 6.3.2 Excitonic transitions in quantum dots 186 C onclu ding remarks 190 Part 3 Metal-Semiconductor Nanostructures 7 Light-Matter Interaction in Metal-Semiconductor Structures 193 7.1 Modified absorption 194 7.1.1 Local field enhancements near planar interfaces 196 7.1.2 Local field enhancements near metallic spheres 198 7.1.3 Shape effects 209 7.2 Modified spontaneous emission 213 7.2.1 Spontaneous decay rate near planar interfaces 215 7.2.2 Spontaneous decay rate near a perfect metal sphere 225 Concluding remarks 232 8 Frontiers in Plasmonics Applications 233 8.1 Towards efficient light-emitting plasmonic devices 234 8.1.1 Plasmon-enhanced spontaneous emission 235 8.1.2 Strong coupling regime in plasmonic cavities 241 8.1.3 Nanolasers 245 8.1.4 Plasmonic antennas 250 Concluding remarks 254 8.2 Single quantum emitter in a plasmonic cavity 255 8.2.1 Single quantum dot spectroscopy 255 8.2.2 Coupling of single emitters to surface plasmons 258 8.2.3 Blinking colloidal quantum dots in plasmonic cavities 264 Concluding remarks 267 8.3 Spin-polarized plasmonics 267 8.3.1 Polarization of a spin system 268 8.3.2 Optical spin Hall effect in plasmonics 270 xiv Contents 8.3.3 Traffic of polarized light 273 Concluding remarks 276 8.4 Quantum light and plasmons 276 8.4.1 Quantum information technology: single and entangled photons 277 8.4.2 Single-photon emitters in plasmonic cavities 281 8.4.3 Polarization-entangled photons and photon- plasmon-photon conversion 288 Concluding remarks 293 8.5 Plasmonic metal-semiconductor nanocomposites 293 8.5.1 Basic properties of nanocomposites 294 8.5.2 Plasmonic solar cells 302 Concluding remarks 308 8.6 Terahertz and infrared semiconductor plasmonics 309 8.6.1 Plasmonics for quantum cascade lasers 309 8.6.2 Terahertz radiation by surface plasmons 312 8.6.3 Epsilon-near֊zero structures 316 Concluding remarks 319 8.7 Graphene plasmonics 319 Concluding remarks 323 References 324 Index 361
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spellingShingle Toropov, Aleksej A.
Šubina, Tatʹjana
Plasmonic effects in metal-semiconductor nanostructures
Series on semiconductor science and technology
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Quantenoptik (DE-588)4047990-0 gnd
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title Plasmonic effects in metal-semiconductor nanostructures
title_auth Plasmonic effects in metal-semiconductor nanostructures
title_exact_search Plasmonic effects in metal-semiconductor nanostructures
title_full Plasmonic effects in metal-semiconductor nanostructures Alexey A. Toropov and Tatiana V. Shubina
title_fullStr Plasmonic effects in metal-semiconductor nanostructures Alexey A. Toropov and Tatiana V. Shubina
title_full_unstemmed Plasmonic effects in metal-semiconductor nanostructures Alexey A. Toropov and Tatiana V. Shubina
title_short Plasmonic effects in metal-semiconductor nanostructures
title_sort plasmonic effects in metal semiconductor nanostructures
topic Halbleiter (DE-588)4022993-2 gnd
Quantenoptik (DE-588)4047990-0 gnd
Oberflächenplasmon (DE-588)4172251-6 gnd
Nanostruktur (DE-588)4204530-7 gnd
Lichtemission (DE-588)4218979-2 gnd
Metall (DE-588)4038860-8 gnd
Plasmon (DE-588)4174845-1 gnd
topic_facet Halbleiter
Quantenoptik
Oberflächenplasmon
Nanostruktur
Lichtemission
Metall
Plasmon
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