THE ROLE OF FIELD COUPLING IN NANO-SCALE CELLULAR NONLINEAR NETWORKS

We review some of our previous work on field-coupling in nano-scale cellular arrays. Electronic devices based on metallic and magnetic nanoscale dots and molecular structures have been suggested, however, no technologically viable architecture for nanoelectronic circuit integration has emerged so fa...

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Bibliographic Details
Published in:International journal of neural systems 2003-12, Vol.13 (6), p.387-395
Main Authors: POROD, WOLFGANG, CSABA, GYÖRGY, CSURGAY, ÁRPÁD
Format: Article
Language:English
Subjects:
Nanotechnology - methods
Neural Networks (Computer)
Nonlinear Dynamics
Theory
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Summary:We review some of our previous work on field-coupling in nano-scale cellular arrays. Electronic devices based on metallic and magnetic nanoscale dots and molecular structures have been suggested, however, no technologically viable architecture for nanoelectronic circuit integration has emerged so far. A natural architecture on the nanoscale appears to be near-neighbor cellular networking, and we explore promising alternative ways of integrating nanodevices by direct physical field coupling, i.e. either by Coulomb or by magnetic interactions. We review new architectures for such field-coupled nanocircuits.
ISSN:0129-0657
1793-6462
DOI:10.1142/S0129065703001728