Download ORMEs -- Superconductive but maybe not Monatomic

archived as http://www.stealthskater.com/Documents/ORMEs_13.pdf
more of ORMES is at http://www.stealthskater.com/ORMEs.htm
note: because important websites are frequently "here today but gone tomorrow", the following was
archived from http://groups.yahoo.com/group/gravity-control-technologies/message/33 on
July 8, 2003 . This is NOT an attempt to divert readers from the aforementioned website.
Indeed, the reader should only read this back-up copy if it cannot be found at the original
author's site.
ORMEs -- Superconductive but maybe not Monatomic
(the following was extracted from a message posted on the yGroup "Gravity Control Technologies")
According to conventional superconductivity theory, a material must be in a solid crystalline matrix
in order to become a superconductor. Type I superconductors are single element metals which are
cooled to near Absolute Zero in order to achieve this crystalline matrix state. Type II superconductors
can achieve an appropriate crystalline state at a much higher temperature (near the temperature of liquid
nitrogen - still colder than any natural temperature on Earth). They do this by creating a sort of "egg
crate" crystalline spacing using a variety of elements in a molecular compound like Yttrium, Barium,
Copper Oxide.
The reason that the crystalline matrix is required is because the electrons in the superconductorcandidate material must be able to pair up into what physicists call "Cooper pairs". The Cooper-pairing
of electrons apparently allows the electrons to store the energy, which is put into the superconductor
indefinitely.
I imagine that an electron Cooper pair is like a little circuit or storage battery which can store a very
large amount of energy.
As these Cooper-paired "circuits" get charged up, an energy "field" grows around them. This energy
field excludes other fields (like magnetic) fields and -- probably -- gravity. What this means is that a
"charged" superconductor will exclude a magnetic field to the extent that the superconductor will
levitate over a magnet. This is called the Meissner effect and is used as the main indicator that
superconductivity is occurring.
A crystalline matrix provides the proper spacing so that the electrons can pair up without forming
chemical bonds. With Type I and Type II superconductors, this matrix is crucial.
A colleague postulated (in 1996) that the ORMUS elements can be single unit superconductors
because their electrons pair up within the single atomic or diatomic unit. You can read this colleagues
description of his theory at:
http://www.subtleenergies.com/ormus/research/paranorm.htm#diatomic
When a group of particles "condense" into a single unified state capable of superconductor and
superfluid behaviors, they become a special state of matter called a "Bose-Einstein condensate" (BEC).
The BEC state in whole atoms was recently achieved in the laboratory by cooling a group of atoms to
within a millionth of a degree of Absolute ZAro.
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The particles (which are capable of quantum behavior like superconductivity and superfluidity) are
called "bosons". A boson must be composed of an even number of subparticles. Particles with an odd
number of subparticles are called "fermions". This means that a single unit superconductor must be a
boson.
Since metallic Gold, for example, is a fermion. With an odd number (79) of protons and electrons, it
theoretically could not become a monatomic superconductor. In order for a gold atom to become a
single unit superconductor, it would have to form a Bose-Einstein Condensate with at least one other
gold atom. Of course, then it would not be monatomic gold since 2 atoms of gold would be
"condensed" into a single unit structure with 158 protons and electrons.
You can read about how this principle was demonstrated with Helium-3 on the American Institute of
Physics web page at http://www.aip.org/physnews/graphics/html/helium3.htm
Here is the quote from that page:
"A superfluid is a liquid that flows without viscosity or inner friction. For a liquid to
become superfluid, the atoms or molecules making up the liquid must be cooled or
"condensed" to the point at which they all occupy the same quantum state. A liquid of
Helium-3 -- an atom whose nucleus is made up of an odd number of particles -- is a type of
particle known as a 'fermion'. Groups of fermions are not allowed to occupy the same
quantum state.
By cooling the liquid to a low enough temperature, Helium-3 atoms can pair up (left
panel). The number of particles in each nucleus adds up to an even number, making it a type
of particle known as a 'boson'. Groups of bosons can fall into the same quantum state and
therefore superfluidity can be achieved.
Helium-4 (middle panel) -- a boson -- does not need to pair up to form a superfluid.
Groups of Helium-4 atoms condense into the superfluid state at about 2 degrees above
Absolute Zero. Superfluidity -- especially the kind that exists in Helium-3 -- is analogous to
conventional low-temperature superconductivity in which electrons flow through certain
metals and alloys without resistance. In a superconductor (right panel), electrons (which are
fermions) pair up in the metal crystal to form 'Cooper pairs' -- bosons which can then
condense into a superconducting state."
ORMUS gold has demonstrated superconductive properties in a non-crystalline form. You can see
a short video that I took of some ORMUS gold that we made from metallic gold at:
http://www.subtleenergies.com/ormus/research/levitate.avi
This video demonstrates magnetic levitation of particles of ORMUS gold. Since these particles are
obviously not in a rigid crystalline matrix, we can take this as evidence that we have a bosonic form of
Gold (probably a condensed di-atom or larger).
From this experiment and others, I think that it is fair to presume that the ORMUS elements are noncrystalline superconductors.
The magnetic vortex traps that I have designed also depend on the superconductive magnetic
levitation of the ORMUS elements. You can find several magnetic trap designs on my web site at
http://www.subtleenergies.com/ormus/tw/magtrap.htm
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Since these magnetic traps work on water and air (which are both fluids), this is further evidence that
these elements are single unit superconductors which do not require a crystalline matrix. Therefore, we
should probably refer to them as Type III superconductors.
Their magnetic levitation and gravity-nulling properties appear to be related to what I call "spin
coherence". You can read my spin coherence "theory" at
http://www.subtleenergies.com/ormus/tw/patterns.htm
You can read more about why I do not believe that these substances are generally monatomic at:
http://www.subtleenergies.com/ormus/tw/what.htm
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