Brizhik L S, Del Giudice E, Popp F-A, Maric-Oehler W, Schlebusch K-P
Bogolyubov Institute for Theoretical Physics, Kiev, Ukraine.
Electromagn Biol Med. 2009;28(1):28-40. doi: 10.1080/15368370802708272.
We show that in nonlinear systems dynamical order can be reached through the flows of matter, energy, and information, which can be non uniformly spread over the organism due to self-trapping induced by the correlated coherence domains of interfacial water. Endogenous electromagnetic field is self trapped in these domains and forms the dynamical pathways as wave-guides, along which these flows can occur via soliton mechanisms. Solitons in the pathways can be stimulated either by intrinsic dynamics or by external stimuli and can be visualized in the infrared range as bright or dark solitons. The formation of such pathways is the consequence of coherence-non coherence transitions occurring in the biological cycle of the organism. A rational therapy appears then to be the induction of conditions for soliton existence necessary for maintaining the coherence of the system.
我们表明,在非线性系统中,动态秩序可通过物质、能量和信息的流动来实现,由于界面水的相关相干域引起的自陷,这些流动可能在生物体中不均匀分布。内源性电磁场自陷在这些域中,并形成作为波导的动态路径,沿着这些路径,这些流动可通过孤子机制发生。路径中的孤子可由内在动力学或外部刺激激发,并可在红外范围内可视化为亮孤子或暗孤子。这种路径的形成是生物体生物循环中发生的相干 - 非相干转变的结果。那么,一种合理的治疗方法似乎是诱导系统维持相干性所需的孤子存在条件。
