Advances in nano-scale-science includes Entanglement in nano and bio-molecular systems .
http://www.edscuola.it/archivio/lre/Nano-science.pdf
The objective of EGOCREANET (www.edscuola.it/lre.html) in the context of "Nanopaprika" is to open a debate to sharing innovation and hypotheses on the future of nano-science to provide a forum for researchers and industry managers to exchange and discuss latest and future design and analysis for nano-scale science .
Namely, we are interested in establishing the feasibility and characteristics of Quantum - entanglement in nano-scale dimension opening a networking through the trans-disciplinary application of the concept of entanglement to cultural and science design, modelling in art and science and visual simulation of nano-scale innovation.
A particular focus of such open debate will be to the issues of Quantum Entenhlement theory regarding , quantum molecular entanglement in nano-scale,and to other relevant topics including: quantum coherence in delocalized bond structures and quantum entanglement in nanoscale dot- systems etc.. .
Paolo Manzelli OCT/24/2011-Firenze <pmanzelli.lre@gmail.com>
Replies
Orbitali atomici, essendo aree geometriche di probabilita, non avendo significato fisico dovrebbero essere inattivi e non giocare alcun ruolo nelle proprieta fisiche dei Materiali Nano. Ma si scopre che questi, orbitali cambiano al livello di Interfaccia di codificazione di vari tipi di nanostrutture, www.sciencedaily.com/releases/2007/10/071012095246.htm
Paolo pmanzelli.lre @ gmail.com
Advances in nano-scale-science includes Entanglement in nano and bio-molecular systems .
http://www.edscuola.it/archivio/lre/Nano-science.pdf
The objective of EGOCREANET (www.edscuola.it/lre.html) in the context of "Nanopaprika" is to open a debate to sharing innovation and hypotheses on the future of nano-science to provide a forum for researchers and industry managers to exchange and discuss latest and future design and analysis for nano-scale science .
Namely, we are interested in establishing the feasibility and characteristics of Quantum - entanglement in nano-scale dimension opening a networking through the trans-disciplinary application of the concept of entanglement to cultural and science design, modelling in art and science and visual simulation of nano-scale innovation.
A particular focus of such open debate will be to the issues of Quantum Entenhlement theory regarding , quantum molecular entanglement in nano-scale,and to other relevant topics including: quantum coherence in delocalized bond structures and quantum entanglement in nanoscale dot- systems etc.. .
Paolo Manzelli OCT/24/2011-Firenze <pmanzelli.lre@gmail.com>