The comparative analysis of the Optical Density for MRET activated water and non-activated water in visible, ultraviolet, and infrared regions of the spectrum

Abstract

MRET activated water is produced with the help of the USA patented Molecular Resonance Effect Technology (MRET). The anomalous electrodynamic characteristics (dielectric permittivity and electrical conductivity) of MRET water subjected to applied electromagnetic field in the area of very low range of frequencies and the anomalous viscosity of MRET water subjected to very low tangential pressure have provided some evidence for the long range dynamic polarized-oriented multilayer structuring of such activated water .
The objective of this article is to demonstrate the relatively high, long range dynamic structuring of water molecules in activated water produced with the help of the MRET activation process. To achieve this goal there were conducted a number of the comparative analysis of the optical density for MRET activated water and non-activated water in visible, ultraviolet (UV), and infrared (IR) regions of the spectrum. This analysis confirms that MRET activation process has the tendency to force water molecules to form large size clusters in the volume of water.
Such findings provide some evidence that MRET activation leads to the formation of polarized-oriented multilayer structuring of water molecules. The correlation analysis of the scattered laser emission also provides the unambiguous confirmation of the presence of the stable water memory phenomenon. The duration of water memory phenomenon was observed for many hours and days in this particular experiment. The water memory phenomenon can be interpreted as the existence of stable super-molecular clusters in the volume of activated water.