Active plasmonics and tuneable plasmonic metamaterials:
Gespeichert in:
| Weitere Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Hoboken, NJ
Wiley [u.a.]
2013
|
| Schriftenreihe: | A Wiley-Science Wise Publishing co-publication
|
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XVIII, 316 S. Ill., graph. Darst. |
| ISBN: | 9781118092088 1118092082 |
Internformat
MARC
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| 007 | t | ||
| 008 | 120119s2013 ad|| |||| 00||| eng d | ||
| 020 | |a 9781118092088 |9 978-1-118-09208-8 | ||
| 020 | |a 1118092082 |9 1-118-09208-2 | ||
| 035 | |a (OCoLC)748330588 | ||
| 035 | |a (DE-599)BVBBV039817386 | ||
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| 245 | 1 | 0 | |a Active plasmonics and tuneable plasmonic metamaterials |c ed. by Anatoly V. Zayats ... |
| 264 | 1 | |a Hoboken, NJ |b Wiley [u.a.] |c 2013 | |
| 300 | |a XVIII, 316 S. |b Ill., graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 490 | 0 | |a A Wiley-Science Wise Publishing co-publication | |
| 700 | 1 | |a Zayats, Anatoly V. |4 edt | |
| 856 | 4 | 2 | |m Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment |q application/pdf |u http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=024677569&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |3 Inhaltsverzeichnis |
| 999 | |a oai:aleph.bib-bvb.de:BVB01-024677569 | ||
Datensatz im Suchindex
| _version_ | 1804148751128854528 |
|---|---|
| adam_text | Contents
Preface
xiii
Contributors
xvii
1
Spaser, Plasmonic Amplification, and Loss Compensation
1
Mark I. Stockman
1.1
Introduction to Spasers and Spasing
1
1.2
Spaser Fundamentals
2
1.2.
t
Brief Overview of the Latest Progress in Spasers
5
1.3
Quantum Theory of Spaser
7
1.3.1
Surface Plasmon Eigenmodes and Their Quantization
7
1.3.2
Quantum Density Matrix Equations (Optical Bloch
Equations) for Spaser
9
1.3.3
Equations for CW Regime
11
1.3.4
Spaser operation in CW Mode
15
1.3.5
Spaser as Ultrafast Quantum Nanoamplifier
17
1.3.6
Monostable
Spaser as a Nanoamplifier in Transient
Regime
18
1.4
Compensation of Loss by Gain and Spasing
22
1.4.1
Introduction to Loss Compensation by Gain
22
1.4.2
Permittivity of Nanoplasmonic Metamaterial
22
1.4.3
Plasmonic Eigenmodes and Effective Resonant
Permittivity of Metamaterials
24
vi
Contents
1.4.4
Conditions
of Loss Compensation by Gain and Spasing
25
1.4.5
Discussion of Spasing and Loss Compensation by Gain
27
1.4.6
Discussion of Published Research on Spasing and
Loss Compensations
29
Acknowledgments
33
References
33
2
Nonlinear Effects in Plasmonic Systems
41
Pavel Ginzburg and Meir Orenstein
2.1
Introduction
41
2.2
Metallic Nonlinearities
—
Basic Effects and Models
43
2.2.1
Local Nonlinearity
—
Transients by Carrier Heating
43
2.2.2
Plasma Nonlinearity
—
The Ponderomotive Force
45
2.2.3
Parametric Process in Metals
46
2.2.4
Metal Damage and Ablation
48
2.3
Nonlinear Propagation of Surface Plasmon Polaritons
49
2.3.1
Nonlinear SPP Modes
50
2.3.2
Plasmon
Solitons 50
2.3.3
Nonlinear Plasmonic Waveguide Couplers
54
2.4
Localized Surface Plasmon Nonlinearity
55
2.4.1
Cavities and Nonlinear Interactions Enhancement
56
2.4.2
Enhancement of Nonlinear Vacuum Effects
58
2.4.3
High Harmonic Generation
60
2.4.4
Localized Field Enhancement Limitations
60
2.5
Summary
62
Acknowledgments
62
References
62
3
Plasmonic Nanorod Metamaterials as a Platform for
Active Nanophotonics
69
Gregory A. Wurtz, Wayne
Dickson,
Anatoly V Zayats, Antony Murphy,
and Robert J. Pollard
3.1
Introduction
69
3.2
Nanorod Metamaterial Geometry
71
3.3
Optical Properties
72
3.3.1
Microscopic Description of the Metamaterial
Electromagnetic Modes
72
3.3.2
Effective Medium Theory of the Nanorod Metamaterial
76
Contents
VU
3.3.3 Epsilon-Near-Zero Metamaterials and
Spatial
Dispersion
Effects
79
3.3.4
Guided Modes in the
Anisotropie Metamaterial
Slab
82
3.4
Nonlinear Effects in Nanorod Metamaterials
82
3.4.1
Nanorod Metamaterial Hybridized with Nonlinear
Dielectric
84
3.4.2
Intrinsic Metal Nonlinearity of Nanorod Metamaterials
85
3.5
Molecular Plasmonics in Metamaterials
89
3.6
Electro-Optical Effects in Plasmonic Nanorod Metamaterial
Hybridized with Liquid Crystals
97
3.7
Conclusion
98
References
99
Transformation Optics for Plasmonics
105
Alexandre
Aubry and John B. Pendry
4.1
Introduction
105
4.2
The
Conformai
Transformation Approach
108
4.2.1
A Set of Canonic Plasmonic Structures
109
4.2.2
Perfect Singular Structures
110
4.2.3
Singular Plasmonic Structures
114
4.2.3.1
Conformai
Mapping of Singular Structures
114
4.2.3.2
Conformai
Mapping of Blunt-Ended Singular
Structures
118
4.2.4
Resonant Plasmonic Structures
119
4.3
Broadband Light Harvesting and Nanofocusing
121
4.3.1
Broadband Light Absorption
121
4.3.2
Balance between Energy Accumulation and
Dissipation
123
4.3.3
Extension to
3D 125
4.3.4
Conclusion
126
4.4
Surface Plasmons and Singularities
127
4.4.1
Control of the Bandwidth with the Vertex Angle
127
4.4.2
Effect of the Bluntness
129
4.5
Plasmonic Hybridization Revisited with Transformation Optics
130
4.5.1
A Resonant Behavior
131
4.5.2
Nanofocusing Properties
132
4.6
Beyond the Quasi-Static Approximation
133
4.6.1
Conformai
Transformation Picture
134
4.6.2
Radiative Losses
135
viii Contents
4.6.3
Fluorescence
Enhancement 137
4.6.3.1
Fluorescence
Enhancement
in the Near-Field
of Nanoantenna
138
4.6.3.2
The CT Approach
139
4.7
Nonlocal effects
142
4.7.1
Conformai
Mapping of Nonlocality
142
4.7.2
Toward the Physics of Local Dimers
143
4.8
Summary and Outlook
145
Acknowledgments
145
References
145
5
Loss Compensation and Amplification of Surface
Plasmon Polaritons
153
Pierre Berini
5.1
Introduction
153
5.2
Surface Plasmon Waveguides
154
5.2.1
Unidimensional
Structures
154
5.2.2
Bidimensional
Structures
156
5.2.3
Confinement-Attenuation Trade-Off
156
5.2.4
Optical Processes Involving SPPs
157
5.3
Single Interface
157
5.3.1
Theoretical
157
5.3.2
Experimental
158
5.4
Symmetric Metal Films
160
5.4.1
Gratings
160
5.4.2
Theoretical
160
5.4.3
Experimental
161
5.5
Metal Clads
163
5.5.1
Theoretical
164
5.5.2
Experimental
164
5.6
Other Structures
164
5.6.1
Dielectric-Loaded SPP Waveguides
164
5.6.2
Hybrid SPP Waveguide
165
5.6.3
Nanostructures
166
5.7
Conclusions
166
References
167
Contents
ЇХ
6 Controlling Light
Propagation
with
Interfacial
Phase
Discontinuities
171
Nanfang Yu,
Mikhail
Α.
Kats, Patrice Genevet, Francesco Aieta,
Romain
Blanchard, Guillaume
Aoust,
Zeno Gaburro, and
Federico Capasso
6.1
Phase Response of Optical Antennas
172
6.1.1
Introduction
172
6.1.2
Single Oscillator Model for Linear Optical Antennas
174
6.1.3
Two-Oscillator Model for 2D Structures Supporting
Two Orthogonal Plasmonic Modes
176
6.1.4
Analytical Models for V-Shaped Optical Antennas
179
6.1.5
Optical Properties of V-Shaped Antennas: Experiments
and Simulations
183
6.2
Applications of Phased Optical Antenna Arrays
186
6.2.1
Generalized Laws of Reflection and Refraction:
Meta-Interface
s
with Phase Discontinuities
186
6.2.2
Out-of-Plane Reflection and Refraction
of Light by Meta-Interfaces
192
6.2.3
Giant and Tuneable Optical Birefringence
197
6.2.4
Vortex Beams Created by Meta-Interfaces
200
References
213
7
Integrated Plasmonic Detectors
219
Pieter Neutens
and Paul Van Dorpe
7.1
Introduction
219
7.2
Electrical Detection of Surface Plasmons
221
7.2.1
Plasmon Detection with Tunnel Junctions
221
7.2.2
Plasmon-Enhanced Solar Cells
222
7.2.3
Plasmon-Enhanced Photodetectors
225
7.2.4
Waveguide-Integrated Surface Plasmon Polariton
Detectors
232
7.3
Outlook
236
References
237
8
Terahertz Plasmonic Surfaces for Sensing
243
Stephen M. Hanham and Stefan A. Maier
8.1
The Terahertz Region for Sensing
244
8.2
THz Plasmonics
244
X
Contents
8.3
SPPs on Semiconductor Surfaces
245
8.3.1
Active Control of Semiconductor Plasmonics
247
8.4
SSPP on Structured Metal Surfaces
247
8.5
THz Plasmonic Antennas
249
8.6
Extraordinary Transmission
253
8.7
THz Plasmons on Graphene
255
References
256
9
Subwavelength Imaging by Extremely
Anisotropie
Media
261
Pavel
A. Belov
9.1
Introduction to Canalization Regime of Subwavelength
Imaging
261
9.2
Wire Medium Lens at the Microwave Frequencies
264
9.3
Magnifying and Demagnifying Lenses with Super-Resolution
269
9.4
Imaging at the Terahertz and Infrared Frequencies
272
9.5
Nanolenses Formed by Nanorod Arrays for the Visible
Frequency Range
276
9.6
Superlenses and Hyperienses Formed by Multilayered
Metal-Dielectric Nanostructures
279
References
284
10
Active and Tuneable Metallic Nanoslit Lenses
289
Satoshi ¡shii, Xingjie
Ni,
Vladimir P. Drachev, Mark D.
Thore
son,
Vladimir M. Shalaev, and Alexander V. Kildishev
10.1
Introduction
289
10.2
Polarization-Selective Gold Nanoslit Lenses
290
10.2.1
Design Concept of Gold Nanoslit Lenses
291
10.2.2
Experimental Demonstration of Gold Nanoslit Lenses
292
10.3
Metallic Nanoslit Lenses with Focal-Intensity Tuneability and
Focal Length Shifting
295
10.3.1
Liquid Crystal-Controlled Nanoslit Lenses
295
10.3.2
Nonlinear Materials for Controlling Nanoslit Lenses
300
10.4
Lamellar Structures with Hyperbolic Dispersion Enable
Subwavelength Focusing with Metallic Nanoslits
301
10.4.1
Active Lamellar Structures with Hyperbolic
Dispersion
302
10.4.2
Subwavelength Focusing with Active Lamellar
Structures
307
Contents
XI
10.4.3
Experimental
Demonstration of Subwavelength
Diffraction
308
10.5
Summary
313
Acknowledgments
313
References
313
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| illustrated | Illustrated |
| indexdate | 2024-07-10T00:12:06Z |
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| isbn | 9781118092088 1118092082 |
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| spelling | Active plasmonics and tuneable plasmonic metamaterials ed. by Anatoly V. Zayats ... Hoboken, NJ Wiley [u.a.] 2013 XVIII, 316 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier A Wiley-Science Wise Publishing co-publication Zayats, Anatoly V. edt Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=024677569&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Active plasmonics and tuneable plasmonic metamaterials |
| title | Active plasmonics and tuneable plasmonic metamaterials |
| title_auth | Active plasmonics and tuneable plasmonic metamaterials |
| title_exact_search | Active plasmonics and tuneable plasmonic metamaterials |
| title_full | Active plasmonics and tuneable plasmonic metamaterials ed. by Anatoly V. Zayats ... |
| title_fullStr | Active plasmonics and tuneable plasmonic metamaterials ed. by Anatoly V. Zayats ... |
| title_full_unstemmed | Active plasmonics and tuneable plasmonic metamaterials ed. by Anatoly V. Zayats ... |
| title_short | Active plasmonics and tuneable plasmonic metamaterials |
| title_sort | active plasmonics and tuneable plasmonic metamaterials |
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