Here is an explanation.
Quantum mechanics is a theory in physics. This theory describes material properties in microscopic scales, such as the behaviors or characteristics of molecules or atoms. Quantum mechanics and the theory of relativity are two key foundations of modern physics; many physics theories and sciences such as atom physics, nuclear physics, particle physics, and their derivatives are all based on quantum mechanics.
The foundry fathers of the theory of quantum mechanics are Werner Heisenberg and Erwin Schrodinger, Max Born, Wolfgang Pauli, Neils Henrik, David Nohr, Paul Maurice Dirac and John Von Neumann also made significant contributions to the development of the theory.
The concepts of quantum mechanics were first formed back in the 1920s. At that time, errors were reported when using classical mechanics and electromagnetism to describe microscopic systems, and the insufficiency of the earlier microscopic theory became more and more evident. Through the development of quantum mechanics, the understanding of material structure and interactions between materials were revolutionized.
With quantum mechanics, many unexplained phenomena became explainable and new phenomena or phenomena that could not be visualized intuitively were predicted. These phenomena were precisely quantified through computation by quantum mechanics, and were verified by accurate experiments later. In addition, except for universal gravitation which requires explanations from the theory of general relativity, all basic interactions in physics can be described by quantum mechanics. Today, quantum mechanics is mainly used in communications and semiconductors applications, but is not widely used in modifying the status and characteristics of natural materials…
Infinitesimal quantum persistent mechanism technology combined many theories and utilized the feature of wave-particle duality to design control mechanisms (quantum mechanics factor that affect material, space factor and time factor) to explore the effects on structural change of water and elements in water.
This wave particle control mechanism, following the principal governed by Schrodinger equation confirms that changes are significant in the nuclear magnetic resonance frequency, electrical properties, the normalization of water molecule cluster size, and the proportion of the water content of trace elements.
The technology proven that quantum control techniques can be successfully implemented when atoms or molecule are subject to interaction from external magnetic/electromagnetic waves, and the energy band and the intensity of electron clouds on the orbits will change. Quantum mechanics not only can be used to explain the structure of material and the related interactions, it can also be applied to control and modify characteristic of material structure.
Today, magnetic technology can be applied in various fields to create the most desirable outcome. We can restore the environment with effective pollution remedy without using chemicals; improve performance and eliminate/significantly reduce carbon emission from motor vehicles; treat illnesses and improve people health without consuming drugs or hormones; improve yield and quality of produce in the field of agriculture, aqua culture and livestock farming, most importantly produce toxin-free and chemical-free food to nourish people.