Nonlinear quantum phenomena and biophysical aspects of complexity related to health and disease.


Author: Brizhik L1, Foletti A2.

Affiliation: 1Department of Nonlinear Condensed Matter Physics, Bogolyubov Institute for Theoretical Physics, Kyiv, Ukraine. 2Department of Innovative Technologies, University of Applied Sciences of Southern Switzerland-SUPSI, Switzerland.
Conference/Journal: J Biol Regul Homeost Agents.
Date published: 2014 Jul-Sep
Other:
 Volume ID: 28   ,  Issue ID: 3   ,  Pages: 357-66   ,  Word Count: 169  
    

In this paper we discuss living systems as a non-linear self-interacting phenomenon, stabilized by the non-linear interaction between matter and self-created electromagnetic field. Such electromagnetic field can arise, in particular, as the radiation from electrosolitons which mediate the charge transport along macromolecules in metabolic redox processes. The non-linear nature of solitons results in an effective mechanism and leads to the synchronization of redox processes. It allows intra- and intercellular communication and long-range coherence in the system. One peculiar property of solitons is the resonant effect of external weak stimuli on their dynamics, which can explain the mechanism of low-intensity (non-thermal) electromagnetic therapies. We also discuss the stabilizing role of noise and spatial symmetry breaking in living organisms as open dissipative structures far from equilibrium, and health/disease states as the corresponding attractors of the system in the multi-parametric phase diagram. The essential role of electromagnetic potentials in self-regulation and self-healing processes is analyzed, based on the long-range matter-field interaction and fast information transfer, provided by the electromagnetic potentials.

PMID: 25316124