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Progress in Nano-Electro-Optics VII Chemical, Biological, and Nanophotonic Technologies for Nano-Optical Devices and Systems

This book focuses on chemical and nanophotonic technology to be used to develop novel nano-optical devices and systems. It begins with temperature- and photo-induced phase transition of ferromagnetic materials. Further topics include: energy transfer in artificial photosynthesis, homoepitaxial multi...

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Bibliographic Details
Other Authors: Ohtsu, Motoichi (Editor)
Format: eBook
Language:English
Published: Berlin, Heidelberg Springer Berlin Heidelberg 2010, 2010
Edition:1st ed. 2010
Series:Springer Series in Optical Sciences
Subjects:
Mass Spectroscopy
Laser
Spectrum Analysis
Mass Spectrometry
Condensed Matter Physics
Spectroscopy
Lasers
Microtechnology
Microsystems And Mems.
Nanotechnology
Condensed Matter
Microelectromechanical Systems
Online Access:
Collection: Springer eBooks 2005- - Collection details see MPG.ReNa
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245 0 0 |a Progress in Nano-Electro-Optics VII  |h Elektronische Ressource  |b Chemical, Biological, and Nanophotonic Technologies for Nano-Optical Devices and Systems  |c edited by Motoichi Ohtsu 
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505 0 |a Photo-Induced Phase Transition in RbMnFe Prussian Blue Analog-Based Magnet -- Photoinduced Energy Transfer in Artificial Photosynthetic Systems -- Electro-Magneto-Optics in Polarity-Controlled Quantum Structures on ZnO -- Nonadiabatic Near-Field Optical Polishing and Energy Transfers in Spherical Quantum Dots -- Shape-Engineered Nanostructures for Polarization Control in Optical Near- and Far-Fields 
653 |a Mass spectroscopy 
653 |a Laser 
653 |a Spectrum analysis 
653 |a Mass Spectrometry 
653 |a Condensed Matter Physics 
653 |a Spectroscopy 
653 |a Lasers 
653 |a Microtechnology 
653 |a Microsystems and MEMS. 
653 |a Nanotechnology 
653 |a Condensed matter 
653 |a Microelectromechanical systems 
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520 |a This book focuses on chemical and nanophotonic technology to be used to develop novel nano-optical devices and systems. It begins with temperature- and photo-induced phase transition of ferromagnetic materials. Further topics include: energy transfer in artificial photosynthesis, homoepitaxial multiple quantum wells in ZnO, near-field photochemical etching and nanophotonic devices based on a nonadiabatic process and optical near-field energy transfer, respectively and polarization control in the optical near-field for optical information security. Taken as a whole, this overview will be a valuable resource for engineers and scientists working in the field of nano-electro-optics 

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