Title :
Design and Simulation of a Nanophotonic Traceable Memory Using Localized Energy Dissipation and Hierarchy of Optical Near-Field Interactions
Author :
Naruse, Makoto ; Yatsui, Takashi ; Kawazoe, Tadashi ; Akao, Yoshinori ; Ohtsu, Motoichi
Abstract :
Optical near-field interactions allow energy localization at scales smaller than the diffraction limit of light. They also show intrinsic hierarchical responses, meaning that optical near-fields exhibit different physical behavior at different scales. In this paper, by combining the localized energy dissipation and hierarchy properties, we present an architecture for a novel traceable optical memory that records memory access events to each bit, which is useful in applications such as high-security information transfer. The basic principles are demonstrated by numerical simulations using a metal nanostructure.
Keywords :
micro-optics; nanotechnology; optical storage; security of data; diffraction limit; energy localization; high-security information transfer; intrinsic hierarchical responses; localized energy dissipation; memory access events; metal nanostructure; nanophotonic traceable memory; optical memory; optical near-field interactions; Information security; information security; nanophotonics; nanostructure; optical memories; optical near-field; plasmon;
Journal_Title :
Nanotechnology, IEEE Transactions on
DOI :
10.1109/TNANO.2007.910335
