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eBook Progress in Nano-Electro Optics IV: Characterization of Nano-Optical Materials and Optical Near-Field Interactions (Springer Series in Optical Sciences) (v. 4) download

by Motoichi Ohtsu

eBook Progress in Nano-Electro Optics IV: Characterization of Nano-Optical Materials and Optical Near-Field Interactions (Springer Series in Optical Sciences) (v. 4) download ISBN: 3540232362
Author: Motoichi Ohtsu
Publisher: Springer; 2005 edition (April 6, 2005)
Language: English
Pages: 208
ePub: 1787 kb
Fb2: 1960 kb
Rating: 4.1
Other formats: txt lrf lrf azw
Category: Engineering
Subcategory: Engineering

This volume focuses on the characterization of nano-optical materials and optical near-field . Bibliographic Information. Progress in Nano-Electro Optics IV. Book Subtitle.

This volume focuses on the characterization of nano-optical materials and optical near-field interactions. It begins with the techniques for characterizing the magneto-optical Kerr effect and continues with methods to determine structural and optical properties in high-quality quantum wires with. Characterization of Nano-Optical Materials and Optical Near-Field Interactions. Springer Series in Optical Sciences.

Progress in Nano-Electro-Optics IV: Characterization of Nano-Optical Materials and Optical Near. 22 MB·43 Downloads·New! This volume focuses on the characterization of nano-optical materials and optical-. 24 MB·3,442 Downloads·New! in the Materials Engineering Department at University College Swansea the book unfolds into an easily readabl.

This volume focuses on the characterization of nano-optical materials and optical-near field interactions. It begins with the techniques for characterizing the magneto-optical Kerr effect and continues with methods to determine structural and optical properties in high-quality quantum wires with high spatial uniformity.

and Optical Near-Field Interactions - Libro electrónico escrito por Motoichi Ohtsu.

Progress in Nano-Electro Optics IV: Characterization of Nano-Optical Materials and Optical Near-Field Interactions - Libro electrónico escrito por Motoichi Ohtsu.

Springer Series in Optical Sciences. See any care plans, options and policies that may be associated with this product. Electrode, App-product, Comp-389269107, DC-prod-cdc04, ENV-prod-a, PROF-PROD, VER-29.

Springer series in optical sciences; 109). ISBN 3-540-23236-2; ISSN 0342-4111. Место хранения: 026 Институт физики полупроводников СО РАН Новосибирск Библиотека. Near-Field Imaging of Magnetic Domains Gereon Meyer, Andreas Bauer, Giinter Kaindl. 1 2. Magneto-Optical SNOM.

Progress in Nano-Electro Optics IV. January 2006 . This volume focuses on the characterization of nano-optical materials and optical near-field interactions. Further topics include: near-field luminescence mapping in InGaN/GaN single.

Near-?eld optical recording is a promising way to realize a recording density 2 of over 1 Tb/in This volume focuses on the characterization of nano-optical materials and optical near-field interactions.

Near-?eld optical recording is a promising way to realize a recording density 2 of over 1 Tb/in. Ohtsu, M. (Ed) (2005). Progress in Nano-Electro-Optics II. (Ed) (2004). Dr. M. Ohtsu is currently a professor of The University of Tokyo

Springer Series in Optical Sciences. Ohtsu is currently a professor of The University of Tokyo. He is also a project leader of SORST Nanophotonics Team, Japan Science and TechnologyAgency. He has been a president of IEEE LEOS Japan Chapter. He has also been a member of the board of directors, Japan Society of Applied Physics. He is a fellow of Optical Society of America. Country of Publication.

This volume focuses on the characterization of nano-optical materials and optical near-field interactions. It begins with the techniques for characterizing the magneto-optical Kerr effect and continues with methods to determine structural and optical properties in high-quality quantum wires with high spatial uniformity. Further topics include: near-field luminescence mapping in InGaN/GaN single quantum well structures in order to interpret the recombination mechanism in InGaN-based nano-structures; and theoretical treatment of the optical near field and optical near-field interactions, providing the basis for investigating the signal transport and associated dissipation in nano-optical devices. Taken as a whole, this overview will be a valuable resource for engineers and scientists working in the field of nano-electro-optics.