Title :
Nanoscale Optical Computing Using Resonance Energy Transfer Logic
Author :
Pistol, Constantin ; Dwyer, Chris ; Lebeck, Alvin R.
Abstract :
Drawing on the nanometer-placement capabilities of self-assembly fabrication methods, the authors propose a new nanoscale device based on a single-molecule optical phenomenon called resonance energy transfer. This device enables a complete integrated technology, providing a potential path to molecular-scale computing. The authors present several important circuit elements, show how to compose these elements into computational nodes, and outline initial steps toward a prototype system.
Keywords :
nanofabrication; optical computing; circuit elements; computational nodes; molecular-scale computing; nanometer-placement capability; nanoscale device; nanoscale optical computing; resonance energy transfer logic; self-assembly fabrication method; single-molecule optical phenomenon; Energy exchange; Integrated circuit technology; Logic devices; Nanoscale devices; Optical computing; Optical device fabrication; Optical devices; Prototypes; Resonance; Self-assembly;
Journal_Title :
Micro, IEEE
