Crystal Catalyst® is a silicon-based Advanced Ceramic Material. It is a catalyst because it was discovered that it enhances the beneficial energy of gemstones, magnets, and many other materials. It also alters the harmful aspects of most natural and electronic environmental energies.
Ceramics are a vital component in many critical energy developments. Because of their special structure and composition, Advanced Ceramics can accomplish things that normal ceramic materials cannot do.
A few examples of Advanced Ceramic materials are:
1. Computer Chips, which store information in layer of an electronic holograph, where, like the human brain, it can be retrieved later.
2. Fiber Optics, which conduct light great distances for communication. Computers can now transfer sound, information, and photographs on fiber optic lines.
3. Super Conductors, which conduct electricity without resistance.
4. Special Ceramic Refractories, that protect furnaces and space vehicles from intense heat.
5. Crystal Catalyst® Dielectric Resonators, which absorb environmental energies and then pulse them in a frequency beneficial to humans (see "Testing" sheet). They alter energy.
You could compare this function to what your catalytic converter does to car exhaust. Catalyts change other materials without being changed themselves.
Crystal Catalyst®, like most other Advanced Ceramic materials, has a proprietary formula. It was discovered in the early 1980s by Robert T. McKusick, and was developed and is marketed by Biomagnetic Research, Inc. of Globe, Arizona, U.S.A.
The reason it works is purely mechanical. It is like your TV, or your car, or your computer; there is nothing magical about it. Because of its structure, Crystal Catalyst® does not wear out. It just keeps working. We have products from over two decades ago which are still functioning efficiently.
Crystal Catalyst® dielectric resonators are fired in a special energy field. This field realigns molecules so that they absorb the energies that strike them, and pulse them out in a beneficial form. Dielectric resonators are not electrical conductors, but are the strongest known collectors of electromagnetic energies.
Most super-conductors are made from advanced ceramic materials. When Corning Glass made the first fiber optics, and ran light through glass for communication purposes, it went only four feet. With the addition of one rare earth, the fiber conducted light 141.6 miles. The Japanese added one other ingredient, and now send light across the Pacific Ocean.
The human central nervous system operates on only thousands of a volt, yet controls all organs and bodily functions. Nerve cells, or neurons, contain tiny bar magnets. Blood is an electrolyte and removes toxins by polarity. Strong electromagnetic fields emitted by various appliances disrupt cell polarity and blood functions, preventing the removal of wastes. This can result in serious afflictions.
Crystal Catalyst® products are made of an advanced ceramic. They alter the nature of most harmful energies before they strike the body, thus removing environmental stress, and allowing the body to resume normal functions.
Cecil E. Nichols, Research Engineer, Retired
NASA Langley Research Center
Hampton, VA
Ceramics are a vital component in many critical energy developments. Because of their special structure and composition, Advanced Ceramics can accomplish things that normal ceramic materials cannot do.
A few examples of Advanced Ceramic materials are:
1. Computer Chips, which store information in layer of an electronic holograph, where, like the human brain, it can be retrieved later.
2. Fiber Optics, which conduct light great distances for communication. Computers can now transfer sound, information, and photographs on fiber optic lines.
3. Super Conductors, which conduct electricity without resistance.
4. Special Ceramic Refractories, that protect furnaces and space vehicles from intense heat.
5. Crystal Catalyst® Dielectric Resonators, which absorb environmental energies and then pulse them in a frequency beneficial to humans (see "Testing" sheet). They alter energy.
You could compare this function to what your catalytic converter does to car exhaust. Catalyts change other materials without being changed themselves.
Crystal Catalyst®, like most other Advanced Ceramic materials, has a proprietary formula. It was discovered in the early 1980s by Robert T. McKusick, and was developed and is marketed by Biomagnetic Research, Inc. of Globe, Arizona, U.S.A.
The reason it works is purely mechanical. It is like your TV, or your car, or your computer; there is nothing magical about it. Because of its structure, Crystal Catalyst® does not wear out. It just keeps working. We have products from over two decades ago which are still functioning efficiently.
Crystal Catalyst® dielectric resonators are fired in a special energy field. This field realigns molecules so that they absorb the energies that strike them, and pulse them out in a beneficial form. Dielectric resonators are not electrical conductors, but are the strongest known collectors of electromagnetic energies.
Most super-conductors are made from advanced ceramic materials. When Corning Glass made the first fiber optics, and ran light through glass for communication purposes, it went only four feet. With the addition of one rare earth, the fiber conducted light 141.6 miles. The Japanese added one other ingredient, and now send light across the Pacific Ocean.
The human central nervous system operates on only thousands of a volt, yet controls all organs and bodily functions. Nerve cells, or neurons, contain tiny bar magnets. Blood is an electrolyte and removes toxins by polarity. Strong electromagnetic fields emitted by various appliances disrupt cell polarity and blood functions, preventing the removal of wastes. This can result in serious afflictions.
Crystal Catalyst® products are made of an advanced ceramic. They alter the nature of most harmful energies before they strike the body, thus removing environmental stress, and allowing the body to resume normal functions.
Cecil E. Nichols, Research Engineer, Retired
NASA Langley Research Center
Hampton, VA