The study of influence of the Teslar technology on aqueous solution of some biomolecules

TL;DR

This study investigates how Teslar chip-generated fields influence aqueous solutions, revealing selective refractive index changes in blood plasma, suggesting a non-electromagnetic interaction possibly involving inerton fields.

Contribution

It provides experimental evidence that Teslar technology affects certain biological solutions via a non-electromagnetic inerton field, expanding understanding of its physical influence.

Findings

Refractive index of blood plasma changes under Teslar influence

Pure water and amino acid solutions show no change initially

The response time of plasma to Teslar field is approximately 100 seconds

Abstract

The possibility of recording physical changes in aqueos solutions caused by a unique field generated by the Teslar chip (TC) inside a quartz wristwatch has been studied using holographic interferometry. We show that the refraction index of degassed pure distilled water and aqueous solutions of L-tyrosine and b-alanine affected by the TC does not change during the first 10 minutes of influence. In contrast, a 1% aqueous solution of plasma extracted from the blood of a patient with heart-vascular disease changes the refractive index when affected by the TC. The characteristic time of reaction is about 100 s. Based on our prior research experience we state that the response of the system studied to the TC's field is similar to that stipulated by the action of a constant magnetic field with the intensity of 1.1 x 10^{-3} T. Nevertheless, our team could unambiguously prove that the TC generates the inerton field, which is associated with a substructure of the matter waves (and, therefore, it does not relate to the electromagnetic nature).