A new approach to foundational problems of quantum mechanics related to applications in quantum technologies and interpretations of signals of various origins

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A new approach to foundational problems of quantum mechanics related to applications in quantum technologies and interpretations of signals of various origins (en)
Нови приступ проблемима заснивања квантне механике са аспекта примене у квантним технологијама и интерпретацијама сигнала различитог порекла (sr)
Novi pristup problemima zasnivanja kvantne mehanike sa aspekta primene u kvantnim tehnologijama i interpretacijama signala različitog porekla (sr_RS)
Authors

Publications

On Macroscopic Quantum Phenomena in Biomolecules and Cells: From Levinthal to Hopfield

Raković, Dejan; Dugić, Miroljub; Jeknić-Dugić, Jasmina; Plavšić, Milenko; Jaćimovski, Stevo; Šetrajčić, Jovan P.

(Hindawi Limited, 2014) 

TY  - JOUR
AU  - Raković, Dejan
AU  - Dugić, Miroljub
AU  - Jeknić-Dugić, Jasmina
AU  - Plavšić, Milenko
AU  - Jaćimovski, Stevo
AU  - Šetrajčić, Jovan P.
PY  - 2014
UR  - http://jakov.kpu.edu.rs/handle/123456789/618
AB  - In the context of the macroscopic quantum phenomena of the second kind, we hereby seek for a solution-in-principle of the long standing problem of the polymer folding, which was considered by Levinthal as (semi) classically intractable. To illuminate it, we applied quantum-chemical and quantum decoherence approaches to conformational transitions. Our analyses imply the existence of novel macroscopic quantum biomolecular phenomena, with biomolecular chain folding in an open environment considered as a subtle interplay between energy and conformation eigenstates of this biomolecule, governed by quantum-chemical and quantum decoherence laws. On the other hand, within an open biological cell, a system of all identical (noninteracting and dynamically noncoupled) biomolecular proteins might be considered as corresponding spatial quantum ensemble of these identical biomolecular processors, providing spatially distributed quantum solution to a single corresponding biomolecular chain folding, whose density of conformational states might be represented as Hopfield-like quantum-holographic associative neural network too (providing an equivalent global quantum-informational alternative to standard molecular-biology local biochemical approach in biomolecules and cells and higher hierarchical levels of organism, as well).
PB  - Hindawi Limited
T2  - Biomed research international
T1  - On Macroscopic Quantum Phenomena in Biomolecules and Cells: From Levinthal to Hopfield
DO  - 10.1155/2014/580491
ER  - 
@article{
author = "Raković, Dejan and Dugić, Miroljub and Jeknić-Dugić, Jasmina and Plavšić, Milenko and Jaćimovski, Stevo and Šetrajčić, Jovan P.",
year = "2014",
abstract = "In the context of the macroscopic quantum phenomena of the second kind, we hereby seek for a solution-in-principle of the long standing problem of the polymer folding, which was considered by Levinthal as (semi) classically intractable. To illuminate it, we applied quantum-chemical and quantum decoherence approaches to conformational transitions. Our analyses imply the existence of novel macroscopic quantum biomolecular phenomena, with biomolecular chain folding in an open environment considered as a subtle interplay between energy and conformation eigenstates of this biomolecule, governed by quantum-chemical and quantum decoherence laws. On the other hand, within an open biological cell, a system of all identical (noninteracting and dynamically noncoupled) biomolecular proteins might be considered as corresponding spatial quantum ensemble of these identical biomolecular processors, providing spatially distributed quantum solution to a single corresponding biomolecular chain folding, whose density of conformational states might be represented as Hopfield-like quantum-holographic associative neural network too (providing an equivalent global quantum-informational alternative to standard molecular-biology local biochemical approach in biomolecules and cells and higher hierarchical levels of organism, as well).",
publisher = "Hindawi Limited",
journal = "Biomed research international",
title = "On Macroscopic Quantum Phenomena in Biomolecules and Cells: From Levinthal to Hopfield",
doi = "10.1155/2014/580491"
}
Raković, D., Dugić, M., Jeknić-Dugić, J., Plavšić, M., Jaćimovski, S.,& Šetrajčić, J. P.. (2014). On Macroscopic Quantum Phenomena in Biomolecules and Cells: From Levinthal to Hopfield. in Biomed research international
Hindawi Limited..
https://doi.org/10.1155/2014/580491
Raković D, Dugić M, Jeknić-Dugić J, Plavšić M, Jaćimovski S, Šetrajčić JP. On Macroscopic Quantum Phenomena in Biomolecules and Cells: From Levinthal to Hopfield. in Biomed research international. 2014;.
doi:10.1155/2014/580491 .
Raković, Dejan, Dugić, Miroljub, Jeknić-Dugić, Jasmina, Plavšić, Milenko, Jaćimovski, Stevo, Šetrajčić, Jovan P., "On Macroscopic Quantum Phenomena in Biomolecules and Cells: From Levinthal to Hopfield" in Biomed research international (2014),
https://doi.org/10.1155/2014/580491 . .
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