Title :
Nanophotonic traceable memory based on energy-localization and hierarchy of optical near-fields
Author :
Naruse, M. ; Yatsui, T. ; Kawazoe, T. ; Akao, Y. ; Ohtsu, M.
Author_Institution :
New Generation Network Research Center, National Institute of Information and Communications Technology, Tokyo, Japan; School of Engineering, The University of Tokyo, Tokyo, Japan
Abstract :
Optical near-field interactions allow energy localization at scales smaller than the diffraction limit of light. They also show hierarchical responses, meaning that optical near-fields exhibit different physical behavior at different scales. In this paper, by combining these properties of optical near-fields, that is, energy-localization and hierarchy, we present a novel traceable optical memory that records the event of memory access to each of the bits, which is useful in applications such as high-security information transfer. The basic principle is numerically demonstrated using a metal nanostructure.
Keywords :
hierarchy; information security; metal nanostructure; nanophotonics; optical memory; optical near-field; plasmon; Energy dissipation; Integrated optics; Memory management; Optical diffraction; Optical fiber networks; Optical recording; Optical sensors; Plasmons; Power engineering and energy; Quantum dots; hierarchy; information security; metal nanostructure; nanophotonics; optical memory; optical near-field; plasmon;
Conference_Titel :
Nanotechnology, 2006. IEEE-NANO 2006. Sixth IEEE Conference on
Print_ISBN :
1-4244-0077-5
DOI :
10.1109/NANO.2006.247768
