Introduction to nanophotonics:
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Cambridge [u.a.]
Cambridge Univ. Press
2010
|
| Ausgabe: | 1. publ. |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XVIII, 465 S. Ill., graph. Darst. |
| ISBN: | 9780521763752 |
Internformat
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| 100 | 1 | |a Gaponenko, Sergey V. |e Verfasser |4 aut | |
| 245 | 1 | 0 | |a Introduction to nanophotonics |c Sergey V. Gaponenko |
| 250 | |a 1. publ. | ||
| 264 | 1 | |a Cambridge [u.a.] |b Cambridge Univ. Press |c 2010 | |
| 300 | |a XVIII, 465 S. |b Ill., graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
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Datensatz im Suchindex
| _version_ | 1804141111219847168 |
|---|---|
| adam_text | Contents
Preface
page
xiii
Notations and acronyms
xv
1
Introduction
1
1.1
Light and matter on a nanometer scale
1
1.2
What is nanophotonics?
2
1.3
Where are the photons in nanophotonics and in this book?
3
References
4
Part I Electrons and electromagnetic waves
in nanostructures
2
Basic properties of electromagnetic waves and quantum particles
9
2.1
Wavelengths and dispersion laws
9
2.2
Density of states
13
2.3
Maxwell and Helmholtz equations
16
2.4
Phase space, density of states and uncertainty relation
18
2.5
Wave function and the
Schrödinger
equation
20
2.6
Quantum particle in complex potentials
22
Problems
32
References
34
3
Wave optics versus wave mechanics I
35
3.1
Isomorphism of the
Schrödinger
and Helmholtz equations
3 5
3.2
Propagation over wells and barriers
37
3.3
Dielectric function of free electron gas and optical properties of metals
51
3.4
Propagation through a potential barrier: evanescent waves and tunneling
54
3.5
Resonant tunneling in quantum mechanics and in optics
65
3.6
Multiple wells and barriers: spectral splitting
70
3.7
Historical comments
73
Problems
76
References
77
4
Electrons in periodic structures and quantum confinement effects
79
4.1
Bloch waves
79
4.2
Reciprocal space and Brillouin zones
84
viii Contents
4.3
Electron band structure in solids
86
4.4
Quasiparticles: holes,
excitons, polaritons
89
4.5
Defect states and Anderson localization
93
4.6
Quantum confinement effects in solids
97
4.7
Density of states for different dimensionalities
99
4.8
Quantum wells, quantum wires and quantum dots
100
Problems
107
References
107
5
Semiconductor nanocrystals (quantum dots)
110
5.1
From atom to crystal
110
5.2
Particle-in-a-box theory of electron-hole states
112
5.3
Quantum chemical theory
118
5.4
Synthesis of nanocrystals
120
5.5
Absorption spectra, electron-hole pair states and many-body effects
125
5.6
Luminescence
130
5.7
Probing the zero-dimensional density of states
133
5.8
Quantum dot matter
1
3 З
5.9
Applications: nonlinear optics
139
5.10
Applications: quantum dot lasers
142
5.11
Applications: novel
luminophores
and fluorescent labels
148
5.12
Applications: electro-optical properties
155
Problems
157
References
158
6
Nanoplasmonics I: metal nanoparticles
166
6.1
Optical response of metals
166
6.2
Plasmons
174
6.3
Optical properties of metal nanoparticles
179
6.4
Size-dependent absorption and scattering
187
6.5
Coupled nanoparticles
191
6.6
Metal-dielectric core-shell nanoparticles
192
Problems
195
References
196
7
Light in periodic structures: photonic crystals
199
7.1
The photonic crystal concept
199
7.2
Bloch waves and band structure in one-dimensionally periodic structures
200
7.3
Multilayer slabs in three dimensions: band structure and omnidirectional
reflection
207
7.4
Band gaps and band structures in two-dimensional lattices
210
7.5
Band gaps and band structure in three-dimensional lattices
213
7.6
Multiple scattering theory of periodic structures
215
7.7
Translation to other electromagnetic waves
216
ix Contents
7.8
Periodic
structures
in
Nature
217
7.9
Experimental
methods of
fabrication
218
7.10
Properties of photonic crystal slabs
225
7.11
The speed of light in photonic crystals
232
7.12
Nonlinear optics of photonic crystals
236
Problems
239
References
240
8
Light in
поп
-periodic structures
246
8.1
The 1/L transmission law: an optical analog to Ohm s law
246
8.2
Coherent backscattering
251
8.3
Towards the Anderson localization of light
253
8.4
Light in fractal structures
258
8.5
Light in quasiperiodic structures: Fibonacci and Penrose structures
270
8.6
Surface states in optics: analog to quantum Tamm states
278
8.7
General constraints on wave propagation in multilayer structures:
transmission bands, phase time, density of modes and energy localization
280
8.8
Applications of turbid structures: Christiansen s filters and
Letokhov s lasers
289
Problems
290
References
291
9
Photonic circuitry
295
9.1
Microcavities and
microlasers
295
9.2
Guiding light through photonic crystals
298
9.3
Holey fibers
303
9.4
Whispering gallery modes: photonic dots, photonic
molecules and chains
305
9.5
Propagation of waves and number coding/recognition
309
9.6
Outlook: current and future trends
311
Problems
312
References
313
10
Tunneling of light
317
10.1
Tunneling of light: getting through the looking glass
317
10.2
Light at the end of a tunnel: problem of superluminal propagation
320
10.3
Scanning near-field optical microscopy
330
Problems
334
References
334
11
Nanoplasmonics II: metal-dielectric nanostructures
336
11.1
Local electromagnetic fields near metal nanoparticles
336
11.2
Optical response of a metal-dielectric composite beyond
Maxwell-Garnett theory
341
Contents
11.3
Extraordinary transparency of perforated metal films
344
11.4
Metal-dielectric photonic crystals
346
11.5
Nonlinear optics with surface plasmons
348
11.6
Metal nanoparticles in a medium with optical gain
350
11.7
Metamaterials with negative refractive index
353
11.8
Plasmonic sensors
361
11.9
The outlook
363
Problems
363
References
364
12
Wave optics versus wave mechanics II
368
12.1
Transfer of concepts and ideas from quantum theory of
solids to nanophotonics
368
12.2
Why quantum physics is ahead
370
12.3
Optical lessons of quantum intuition
370
Problems
372
References
373
Part II Light-matter interaction in nanostructures
13
Light
-
matter interaction: introductory quantum electrodynamics
377
13.1
Photons
377
13.2
Wave-particle duality in optics
381
13.3
Electromagnetic vacuum
382
13.4
The
Casimir
effect
3 84
13.5
Probability of emission of photons by a quantum system
385
13.6
Does Fermi s golden rule help to understand
spontaneous emission?
389
13.7
Spontaneous scattering of photons
390
Problems
392
References
392
14
Density of states effects on optical processes in mesoscopic structures
395
14.1
The
Purceii
effect
396
14.2
An emitter near a planar mirror
400
14.3
Spontaneous emission in a photonic crystal
401
14.4
Thin layers, interfaces and stratified dielectrics
404
14.5
Possible
subnaturai
atomic linewidths in plasma
407
14.6
Barnett-Loudon sum rule
408
14.7
Local density of states: operational definition and conservation law
410
14.8
A few hints towards understanding local density of states
411
14.9
Thermal radiation in mesoscopic structures
413
14.10
Density of states effects on the Raman scattering of light
415
xi Contents
14.11
Directional emission and scattering of light defined by partial
density of states
416
Problems
419
References
419
15
Light-matter states beyond perturbational approach
424
15.1
Cavity quantum electrodynamics in the strong coupling regime
424
15.2
Single-atom
maser
and laser
428
15.3
Light-matter states in a photonic band gap medium
429
15.4
Single photon sources
431
Problems
433
References
433
16
Plasmonic enhancement of secondary radiation
436
16.1
Classification of secondary radiation
436
16.2
How emission and scattering of light can be enhanced
437
16.3
Local density of states in plasmonic nanostructures
439
16.4
Hot spots in plasmonic nanostructures
441
16.5
Raman scattering enhancement in metal-dielectric nanostructures
444
16.6
Luminescence enhancement in metal-dielectric nanostructures
447
Problems
452
References
452
Author index
455
Subject index
458
|
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| spelling | Gaponenko, Sergey V. Verfasser aut Introduction to nanophotonics Sergey V. Gaponenko 1. publ. Cambridge [u.a.] Cambridge Univ. Press 2010 XVIII, 465 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Nanophotonics Nanostrukturiertes Material (DE-588)4342626-8 gnd rswk-swf Photonik (DE-588)4243979-6 gnd rswk-swf Nanophotonik (DE-588)7618094-3 gnd rswk-swf Nanostrukturiertes Material (DE-588)4342626-8 s Photonik (DE-588)4243979-6 s DE-604 Nanophotonik (DE-588)7618094-3 s Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018956016&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Gaponenko, Sergey V. Introduction to nanophotonics Nanophotonics Nanostrukturiertes Material (DE-588)4342626-8 gnd Photonik (DE-588)4243979-6 gnd Nanophotonik (DE-588)7618094-3 gnd |
| subject_GND | (DE-588)4342626-8 (DE-588)4243979-6 (DE-588)7618094-3 |
| title | Introduction to nanophotonics |
| title_auth | Introduction to nanophotonics |
| title_exact_search | Introduction to nanophotonics |
| title_full | Introduction to nanophotonics Sergey V. Gaponenko |
| title_fullStr | Introduction to nanophotonics Sergey V. Gaponenko |
| title_full_unstemmed | Introduction to nanophotonics Sergey V. Gaponenko |
| title_short | Introduction to nanophotonics |
| title_sort | introduction to nanophotonics |
| topic | Nanophotonics Nanostrukturiertes Material (DE-588)4342626-8 gnd Photonik (DE-588)4243979-6 gnd Nanophotonik (DE-588)7618094-3 gnd |
| topic_facet | Nanophotonics Nanostrukturiertes Material Photonik Nanophotonik |
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