04162nam a22004935i 4500 978-1-4020-4333-8 DE-He213 20260521092107.0 cr nn 008mamaa 100301s2007 ne | s |||| 0|eng d 9781402043338 99781402043338 10.1007/978-1-4020-4333-8 doi Brongersma, Mark L. editor. Surface Plasmon Nanophotonics [electronic resource] / edited by Mark L. Brongersma, Pieter G. Kik. Dordrecht : Springer Netherlands, 2007. VII, 271 p. 147 illus. online resource. text txt rdacontent computer c rdamedia online resource cr rdacarrier text file PDF rda Springer Series in Optical Sciences, 0342-4111 ; 131 SURFACE PLASMON NANOPHOTONICS -- NEAR-FIELD AND FAR-FIELD PROPERTIES OF NANOPARTICLE ARRAYS -- THEORY OF LIGHT TRANSMISSION THROUGH PERIODICALLY STRUCTURED NANO-APERTURES -- DEVELOPMENT AND NEAR-FIELD CHARACTERIZATION OF SURFACE PLASMON WAVEGUIDES -- NUMERICAL SIMULATIONS OF LONG-RANGE PLASMONIC TRANSMISSION LINES -- SURFACE PLASMON POLARITON GUIDING IN PHOTONIC BANDGAP STRUCTURES -- SUBWAVELENGTH-SCALE PLASMON WAVEGUIDES -- OPTICAL SUPERLENS -- OPTICAL FIELD ENHANCEMENT WITH PLASMON RESONANT BOWTIE NANOANTENNAS -- NEAR-FIELD OPTICAL EXCITATION AND DETECTION OF SURFACE PLASMONS -- PRINCIPLES OF NEAR-FIELD OPTICAL MAPPING -- OVERVIEW OF SIMULATION TECHNIQUES FOR PLASMONIC DEVICES -- PLASMON HYBRIDIZATION IN COMPLEX NANOSTRUCTURES -- SENSING PROTEINS WITH ADAPTIVE METAL NANOSTRUCTURES -- INTEGRATED OPTICS BASED ON LONG-RANGE SURFACE PLASMON POLARITONS -- LOCALIZED SURFACE PLASMONS FOR OPTICAL DATA STORAGE BEYOND THE DIFFRACTION LIMIT -- SURFACE PLASMON COUPLED EMISSION. The development of advanced dielectric photonic structures has enabled tremendous control over the propagation and manipulation of light. Structures such as waveguides, splitters, mixers, and resonators now play a central role in the telecommunications industry. This book will discuss an exciting new class of photonic devices, known as surface plasmon nanophotonic structures. Surface plasmons are easily accessible excitations in metals and semiconductors and involve a collective motion of the conduction electrons. These excitations can be exploited to manipulate electromagnetic waves at optical frequencies ("light") in new ways that are unthinkable in conventional dielectric structures. The field of plasmon nanophotonics is rapidly developing and impacting a wide range of areas including: electronics, photonics, chemistry, biology, and medicine. The book will highlight several exciting new discoveries that have been made, while providing a clear discussion of the underlying physics, the nanofabrication issues, and the materials considerations involved in designing plasmonic devices with new functionality. The book is aimed at researchers and students interested in entering the field of plasmon nanophotonics, while serving as a reference to scientists already active in this area of research. It is written at the level of a first year graduate student with some background in electromagnetic theory and working knowledge of Maxwell's equations. CHEMISTRY. ELECTROMAGNETISM. ELECTRODYNAMICS. PHYSICAL OPTICS. NANOTECHNOLOGY. CHEMISTRY. NANOTECHNOLOGY. APPLIED OPTICS, OPTOELECTRONICS, OPTICAL DEVICES. ELECTROMAGNETISM, OPTICS AND LASERS. CLASSICAL ELECTRODYNAMICS, WAVE PHENOMENA. Kik, Pieter G. editor. SpringerLink (Online service) Springer eBooks Printed edition: 9781402043499 Springer Series in Optical Sciences, 0342-4111 ; 131 http://dx.doi.org/10.1007/978-1-4020-4333-8 Ver el texto completo en las instalaciones del CICY ZDB-2-PHA ddc ER 36752 36752 0 0 ddc 0 0 LE CICY CICY EL 2025-10-06 0 2025-10-06 08:45:08 2025-10-06 ER