Active plasmonics and tuneable plasmonic metamaterials /

Active plasmonics and tuneable plasmonic metamaterials /

"This book, edited by two of the most respected researchers in plasmonics, gives an overview of the current state in plasmonics and plasmonic-based metamaterials, with an emphasis on active functionalities and an eye to future developments. This book is multifunctional, useful for newcomers and...

Πλήρης περιγραφή

Λεπτομέρειες βιβλιογραφικής εγγραφής
Άλλοι συγγραφείς: Zayats, A. V. (Anatoly V.) (Επιμελητής έκδοσης), Maier, Stefan A. (Επιμελητής έκδοσης)
Μορφή: Ηλ. βιβλίο
Γλώσσα:English
Έκδοση: Hoboken, N.J. : Wiley : [2013]
Science Wise, [2013]
Σειρά:A Wiley-Science Wise Co-Publication
Θέματα:
Plasmons (Physics)
Metamaterials.
Photonics.
Surface plasmon resonance.
SCIENCE > Molecular Physics.
SCIENCE > Energy.
SCIENCE > Mechanics > General.
SCIENCE > Physics > General.
Electronic books.
Διαθέσιμο Online:Full Text via HEAL-Link
Πίνακας περιεχομένων:
  • Cover; Title Page; Copyright; Preface; Contributors; Chapter 1: Spaser, Plasmonic Amplification, and Loss Compensation; 1.1 INTRODUCTION TO SPASERS AND SPASING; 1.2 SPASER FUNDAMENTALS; 1.3 QUANTUM THEORY OF SPASER; 1.4 COMPENSATION OF LOSS BY GAIN AND SPASING; ACKNOWLEDGMENTS; REFERENCES; Chapter 2: Nonlinear Effects in Plasmonic Systems; 2.1 INTRODUCTION; 2.2 METALLIC NONLINEARITIES-BASIC EFFECTS AND MODELS; 2.3 NONLINEAR PROPAGATION OF SURFACE PLASMON POLARITONS; 2.4 LOCALIZED SURFACE PLASMON NONLINEARITY; 2.5 SUMMARY; ACKNOWLEDGMENTS; REFERENCES.
  • Chapter 3: Plasmonic Nanorod Metamaterials as a Platform for Active Nanophotonics3.1 INTRODUCTION; 3.2 NANOROD METAMATERIAL GEOMETRY; 3.3 OPTICAL PROPERTIES; 3.4 NONLINEAR EFFECTS IN NANOROD METAMATERIALS; 3.5 MOLECULAR PLASMONICS IN METAMATERIALS; 3.6 ELECTRO-OPTICAL EFFECTS IN PLASMONIC NANOROD METAMATERIAL HYBRIDIZED WITH LIQUID CRYSTALS; 3.7 CONCLUSION; REFERENCES; Chapter 4: Transformation Optics for Plasmonics; 4.1 INTRODUCTION; 4.2 THE CONFORMAL TRANSFORMATION APPROACH; 4.3 BROADBAND LIGHT HARVESTING AND NANOFOCUSING; 4.4 SURFACE PLASMONS AND SINGULARITIES.
  • 4.5 PLASMONIC HYBRIDIZATION REVISITED WITH TRANSFORMATION OPTICS4.6 BEYOND THE QUASI-STATIC APPROXIMATION; 4.7 NONLOCAL EFFECTS; 4.8 SUMMARY AND OUTLOOK; ACKNOWLEDGMENTS; REFERENCES; Chapter 5: Loss Compensation and Amplification of Surface Plasmon Polaritons; 5.1 INTRODUCTION; 5.2 SURFACE PLASMON WAVEGUIDES; 5.3 SINGLE INTERFACE; 5.4 SYMMETRIC METAL FILMS; 5.5 METAL CLADS; 5.6 OTHER STRUCTURES; 5.7 CONCLUSIONS; REFERENCES; Chapter 6: Controlling Light Propagation with Interfacial Phase Discontinuities; 6.1 PHASE RESPONSE OF OPTICAL ANTENNAS; 6.2 APPLICATIONS OF PHASED OPTICAL ANTENNA ARRAYS.
  • 9.2 WIRE MEDIUM LENS AT THE MICROWAVE FREQUENCIES9.3 MAGNIFYING AND DEMAGNIFYING LENSES WITH SUPER-RESOLUTION; 9.4 IMAGING AT THE TERAHERTZ AND INFRARED FREQUENCIES; 9.5 NANOLENSES FORMED BY NANOROD ARRAYS FOR THE VISIBLE FREQUENCY RANGE; 9.6 SUPERLENSES AND HYPERLENSES FORMED BY MULTILAYERED METAL-DIELECTRIC NANOSTRUCTURES; REFERENCES; Chapter 10: Active and Tuneable Metallic Nanoslit Lenses; 10.1 INTRODUCTION; 10.2 POLARIZATION-SELECTIVE GOLD NANOSLIT LENSES; 10.3 METALLIC NANOSLIT LENSES WITH FOCAL-INTENSITY TUNEABILITY AND FOCAL LENGTH SHIFTING.

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