Water and SWEME Interactions: An Understanding Proposal

Under the in uence of super weak electromagnetic emission (SWEME) the water changes its physical properties and becomes able to have the same eect on biological object as well as the substance which SWEME was used. Its fundamental and peculiar properties have been studied and presented by G. H. Pollack in the last decades. Nevertheless, up today, there is no understanding of mechanisms of these phenomena, and there are no theoretical basics for the observed results. In previous papers we introduced the computational information conservation theory (CICT) approach for the mathematical treatment of the spacetime splitting in nanoscale electromagnetic, bioelectromagnetic and arbitrary multiscale (AMS) system modeling problems, to get more eective and reliable biophysical and biomedical engineering simulation solutions. Eventually, our approach suggests that to grasp a more reliable representation of experimental reality and to get stronger physical and biological system correlates, researchers and scientists need two intelligently articulated hands: both stochastic and combinatorial approaches synergistically articulated by natural coupling. To achieve this result, in present paper, we show a pre-spatial geometro-arithmetic scheme dening outer or extrinsic phased generator (EPG) and related inner or intrinsic phased generators (IPG) to minimize the traditional multiscale statistic modeling veil opacity. CICT EPG-IPG approach brings classical and quantum information theory together in a single pre-spatial geometro-arithmetic framework, by considering information not only on the high-level statistical manifold of model states of information geometry (IG) (usual top-down statistical modeling), but also from combinatorially optimized exponential cyclic sequences (OECS) of low-level multiplicative source generators (innovative bottom-up combinatorial modeling, with none combinatorial explosion), related to the empirical measures of experimental high-level overall perturbation. The CICT EPG-IPG fundamental relationship can help modeling and explaining peculiar water resonant behavior.