Optical Nanotechnologies. The Manipulation of Surface and Local Plasmons
J.Tominaga, D.P. Tsai
Springer | 2003-08-05 | ISBN: 3540440704 | 212 pages | PDF | 4.0 MB
This book treats the phenomena and techniques of advanced optics confined in nanometer-scale regions, especially near-field optics and surface as well as local plasmons. Written by internationally distinguished scientists the coverage extends from the basics to the most advanced technologies, system characteristics and methods of manipulation.
Surface and local plasmons are a useful investigative tool for studying the electronic properties of various surfaces. Especially as shown here, when those surfaces might be masks used in lithography, or in disks, for computer data. Now this book shows how the coupling can be used in fabrication steps.
This book takes research far beyond the pioneering efforts of Kretschmann, in the early 1970s, or of John Swan, in the 1960s and 70s, at the University of Western Australia. Back then, those works were pure research. Whereas the current text has an emphasis on applications. In no small part because we can now fabricate heterostructures whose characteristic lengths are comparable to those of the wavelengths of the light used to excite the plasmons.
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J.Tominaga, D.P. Tsai
Springer | 2003-08-05 | ISBN: 3540440704 | 212 pages | PDF | 4.0 MB
This book treats the phenomena and techniques of advanced optics confined in nanometer-scale regions, especially near-field optics and surface as well as local plasmons. Written by internationally distinguished scientists the coverage extends from the basics to the most advanced technologies, system characteristics and methods of manipulation.
Surface and local plasmons are a useful investigative tool for studying the electronic properties of various surfaces. Especially as shown here, when those surfaces might be masks used in lithography, or in disks, for computer data. Now this book shows how the coupling can be used in fabrication steps.
This book takes research far beyond the pioneering efforts of Kretschmann, in the early 1970s, or of John Swan, in the 1960s and 70s, at the University of Western Australia. Back then, those works were pure research. Whereas the current text has an emphasis on applications. In no small part because we can now fabricate heterostructures whose characteristic lengths are comparable to those of the wavelengths of the light used to excite the plasmons.
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