Reliability of Bi-stable Single Domain Nano Magnets for Cellular Automata

J. Pulecio and S. Bhanja, “Reliability of Bi-stable Single Domain Nano Magnets for Cellular Automata”, Accepted for publication in IEEE conference on nanotechnology, Hong Kong, 2007. (Note: Accepted Extended Summaries will be published in the IEEE Review of Advances on Micro, Nano, and Molecular Systems)

@INPROCEEDINGS{4601302,
title={Reliability of bi-stable single domain nano magnets for Cellular Automata},
author={Pulecio, J.F. and Bhanja, S.},
booktitle={Nanotechnology, 2007. IEEE-NANO 2007. 7th IEEE Conference on},
year={2007},
month={Aug.},
volume={},
number={},
pages={782-786},
abstract={Quantum cellular automata, also known as QCA, has been touted as a pragmatic use of quantum phenomena which currently are detrimental in nano-transistor technology. Recently, QCA technologies has expanded into magnetism, an area referred to as magnetic QCA, by exploiting the magnetic coupling interaction between neighboring cells (nano-magnets). The interactions of orderly fabricated nano-magnets and the viability of nano-magnetic structures as logical building blocks has yet to be explored in great detail. We have fabricated nano-scale magnetic QCA cells and currently the scope entails determining how factors such as material, size, placement, and surface roughness affect the magnetic properties and coupling interactions between the nano- magnetic QCA cells.},
keywords={cellular automata, logic devices, magnetic devices, nanostructured materials, nanotechnology, reliability, surface roughnessbi-stable single domain nanomagnets, nanomagnetic QCA cells, nanomagnetic structures, nanotransistor technology, quantum cellular automata, surface roughness},
doi={10.1109/NANO.2007.4601302},
ISSN={}, }