Meisner Field Biological ORME * SILVER * & Gold

8/4/2019 Meisner Field Biological ORME *** SILVER *** & Gold

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Special Properties of the "Transition GroupElements""The 38 elements in groups 3 through 12 of the

periodic table are called "transition metals". Aswith all metals, the transition elements are bothductile and malleable, and conduct electricity andheat . The interesting thing about transition metalsis that their valence electrons , or the electronsthey use to combine with other elements, arepresent in more than one shell. This is the reasonwhy they often exhibit several common oxidationstates. There are three noteworthy elements in thetransition metals family. These elements are iron,cobalt, and nickel, and they are the only elementsknown to produce a magnetic field external to theirsystem." Yinon Bentor

The Transition Metals are: ... Link tochemicalelements.com

The Atomic ORME and S-ORME States TECHNICAL OVERVIEW

( "Written for the layman by a layman" David Hudson Cotton Farmer )

David Hudson spent 8.7 million dollars learning this "AdvancedScience".

He worked with the most advanced test equipment and peopleon our planet.
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Transition Group Elements

Description There is a group of elements found in the middleof the periodic table known as the "transitiongroup elements":

1) One category of these is called the preciouselements: Silver , and the "light platinum group" ( palladium ,

rhodium , and ruthenium ). These are called 3dtransition group elements.

Gold , and the "heavy platinum group" ( platinum ,iridium , and osmium ). These are called 4dtransition, group elements.

2) Another category of these are the non precious

elements: Copper , cobalt and nickel . These are called 2dtransition group elements.

These elements are known as "transition groupelements". They are in an uncertain state asregards their positive or negative electro-chargebehavior, hence the name "transition". Their

valence. electron orbitals are always half filled orhalf empty. (Electrons in the outer shells of anatom are referred to as valence electrons.Different orbital states for electrons can hold onlycertain numbers of electrons. ) Elements withfewer electrons in the outer shells tend to be
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electro-positive, and those with more electrons inthe outer shells tend to be electro-negative.

These transition elements possess a uniqueproperty in that the electrons in the Partially filledouter orbitals can interchange under the rightconditions with electrons in the partially filledinner orbitals (d). This is the underlying basis of catalytic reactions. (A catalytic reaction is achemical reaction that occurs much more rapidlythan normal without the catalyst itself participating in the reaction.)


Atom Clustering and The Monoatomic State

Most atoms cluster in groups of at least two ormore atoms. However, the transition group

elements, because of their unique properties, canbe found already existing, or can be created andare able to remain, in a stable single atom state .This is achieved by having no nearest neighborcloser than four angstroms and, therefore, by notbeing able to chemically bind with other atoms.This is called a "monoatomic" state.

In this state, these atoms interact in twodimensions , in a unique continuous linearmovement between a strong repulsive force whenclose enough to each other, and a strong attractiveforce when moved apart at a certain distance. Onlywhen the repulsive force is overcome, will these


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atoms aggregate to form a metallic union.

In metals, during the process of going from amany atom state to a monoatomic state , there is adisaggregation of the metal-metal bonds and a lossof the properties characteristically assigned to thedescription of a metal. Different transitionelements have different critical atom cluster sizewhich determine their metal characteristics andbehavior. These characteristic physical propertiesare lost at different rates depending on theelement involved. (For example, the critical cluster

size for rhodium is five atoms; for iridium it is nineatoms.

Two or more atoms, up to thirty-three, of the sametransition group element, when clustered together,are called "metal-metal" bonded. In these clustersizes, they can not be called truly metallic. It takesa twelve atom cluster before they become

electrically conductive. It takes thirteen atoms fortheir true metallic properties to begin to appear. Ittakes a cluster of thirty-three atoms before theybecome fully metallic, and will grow all bythemselves. At thirty-three form a "face centercubic", a first basic growth structure of threedimensions solidly formed like a cube. In all thesequasi metallic and fully metallic states, the atoms

interact in three dimensions. In the monoatomicstate, they are referred to as non-metallic and theyinteract in two dimensions.

In the monoatomic state, these elements haveunique and consistent behavior. This is their true


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elemental state.


Superdeformed Nuclei, High Spin Low Energy inthe Monoatomic State:

In the monoatomic state, the atoms of thetransition group elements lose their chemicalreactivity and change the configuration of thenucleus . This change in nuclear configurationseems to cause the electrical change that pacifiesthe chemical effect . It may be considered as themono-atom internally compensating for the highlyreactive chemical state.

The nuclear configuration changes because thereis a correlation between the nuclear orbitals andthe electron orbitals as to how full they are. In the

nucleus, totally filled orbitals (harmonic) excludethe partially filled orbitals (anharmonic) bypushing them away. The nucleus almost dividesinto one filled, and one half filled. This is known asthe "liquid drop" theory.

This condition is unique to these atoms. The newlyshaped nucleus is called "superdeformed". Nuclear

physicists have recently confirmed that theseatoms will change their proton and neutronconfigurations when they have no nearestneighbor to di-pole and di-pole react with. Theycan observe one atom at a time in linearaccelerators.


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A normal nucleus is shaped non spherically(deformed) at a vertical (length) to horizontal(width) ratio of 1.3 to 1. It is very stable and isheld together by the strong force. It takes onemillion electron volts to knock a proton out of thenucleus!

The nucleons of these monoatomic elementsadjust their positions in the nucleus, such that theratio of their length to width becomes 2 to 1. These"soft" nuclei (those having a number of protons

within a certain range and half filled orbitals)deform more easily than normal nuclei. 0nly tenelectron volts are needed to cause asuperdeformed nucleus to break apart, and thiscan be done with a mere DC arc! (See discussion of gamma emission below.)

The presence of a superdeformed nucleus is

directly correlated to a change in its spin state; itpasses from a low spin state to a high spin state. Ithas been found that the nuclei of these elementshave a higher total energy in a low spin state (theirinternal temperature is higher) than when they arein a high spin state (their internal temperature islower). This causes the mono-atom to seek thehigh spin state because that state has the total

lowest energy. Furthermore, this high spin statewill continue to exist until such time as a nearestneighbor atom is able to transfer energy into thenucleus and convert it back to the higher energylow spin state. (This is called "pinning" in thesuperconducting industry.)


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Superconductivity

Researchers working with large magnetic fieldsdiscovered in the 1960's that metals when inducedinto a high spin state (using energies of approximately 540,000 gauss) were capable of passing energy from one high spin atom to thenext with no net loss of energy! This was thediscovery of superconductivity.

Superconductivity allows the conduction of energythrough a resonance phenomenon. Unlike electricalconduction, energy can be passed from onesuperconductor to another with contact, withoutresistance and, therefore, with no net loss of energy.

To create superconductivity in a potential

superconductor, an external magnetic field must beapplied to get the system going. Once the flow of energy is set in motion, however, it is onlynecessary to keep the conditions correct so thatthe material remains superconductive. (Note:When it takes more energy to create a magneticfield to keep the atoms in the high spin low energystate than it would take to push electricity down a

good conductor, the process is self defeating.)Atoms could now be induced into a high spin state

of low energy and be kept in that state withoutcontinuous applied energy boosts. The systemcurrently in use, to induce atoms into a high spin


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state of low energy, is refrigeration combined withextremely high magnetic fields of approximately540,000 gauss. The system now in use, to keep theatoms in the high spin state, is refrigeration tonear absolute zero. All of this is an elaborate andexpensive process.


Perfect Superconductivity in the MonoatomicState, Cooper Pairs and the Meisner Field

There are distinct differences betweensuperconductors. A Type I superconductor is whatwe refer to as a perfect superconductor, with onesingle vibrational phase. A Type II superconductorcontains ordinary metallic conductivity inconjunction with perfect superconductivity, two ormore vibrational phases, and includes the many

different systems in current use today.

A transition group element in the monoatomicstate is a Type I superconductor. It is unique in thatit can be found to exist naturally and in a stablestate, or it can be reduced from a full metallicstate to this state by proper manipulation.Furthermore, once in the monoatomic state, it does

not require any outside assistance to maintain itssuperconductive properties, It is superconductiveat room temperatures.

Perfect superconductivity is allowed due to aphenomenon known as "Cooper Pairing" which


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creates a "Meisner Field". Researchers havetheorized that when the nucleus of a transitiongroup element is superdeformed and in the highspin state, a positive "screening potential" aroundthe nucleus (the positive field produced by thenucleus that screens all but the valence electrons)expands out and covers all of the electrons of theelement. This screening of all of the electronsallows them to become uniquely paired as mirrorimages of each other, with spin up and spin down,and without annihilating each other. Instead, inpairing they become, photons of one frequency. As

photons, they lose their particle aspect. These arecalled "Cooper pairs".

A Nobel prize was given to Bardeen, Cooper andSchreiffer for having identified this pairingmechanism. However, this was theory only, and theresearchers are not yet aware of the actualexistence of this condition in the mono-atoms of

the transition group elements nor of the perfectsuperconductivity of these atoms in this state.

Superconductive flow is made possible by Cooperpairs made up of photons flowing on the quantal(phonon) wave of the superconductor. This occursat room temperature!!

{Quanta (called photons) are waves of light. Aphoton is the name given to the quantum of energy released when an electron goes from anouter orbital to a lower orbital in the atom.Photons are bosons, pure waves, the bearers of light. They have spin one characteristics and obeys


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certain laws. Electrons are fermions and have spinone-half characteristics and obey other laws.}

When the screening potential occurs, each atomproduces a Coulomb wave in two dimensions as itresonates. The phenomenon of the screeningpotential, associated with a single atom, can alsobe observed when many single atoms areproximate to each other, but not nearestneighbors, i.e., the atoms must remainmonoatomic, and their relation to each other mustallow the two dimensional resonance to continue.

These arrangements, only possible with mono-atoms, are found uniquely in the transition groupelements, which can remain stable and naturally inthe monoatomic state. Mono-atoms of otherelements, are unable to remain stable in themonoatomic state because they do not have "soft",and superdeformed nuclei, nor can they enter

then, into the high spin state. Therefore, sincethere is not sufficient repulsion between atoms,they naturally aggregate and can only interact witheach other in the three dimensions of the metal-metal bonded states, and will eventually grow intothe cubic cluster size of thirty-three atoms ormore. (See special case of copper below.)

When many single atoms are proximate to eachother in the monoatomic state, the screeningpotentials of each atom will now respond to anexternal applied magnetic field by joining andproducing a phenomenon which allows theformation of a special magnetic field called a


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"Meisner field". This field has been observed inatoms of metals by researchers at two and threedegrees Kelvin, i.e., at extremely coldtemperatures, but these atoms will always returnto a normal metallic state once the temperature israised. Until Hudson's work, the Meisner field hasnever been seen in atoms at room temperatures. Ithas been extremely expensive to produce theseatoms in this superconductive state with existingtechnology, and therefore not commercially viable.(This phenomena can be utilized to levitatevehicles capable of transporting humans or heavy

loads with a minimum of energy. This phenomenonaccounts for rapid train systems world wide, buttheir energy savings in propelling the vehicle areoffset by the refrigeration costs of cooling theirsuperconductors.)

The Meisner field is a special magnetic field , thatis unique. It has no North or South polarity. The

magnitude of the Meisner field is determined bythe amount of initially applied external magneticfield to the superconductor. Once activated, it actsas a protective barrier and resists any furtherentry of applied magnetic field into the sample.(When a sample absorbs a magnetic field, it canreact paramagnetically, i.e., it will assume theidentical magnetic qualities, or it can react

ferromagnetically, i.e. it will orient itself to themagnetic field and return to its former state oncethe magnetic field is removed. With the Meisnerfield, the sample becomes perfectly diamagnetic,i.e., it will expel all magnetic fields. Magneticfields, no longer absorbed, are forced to go around


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the sample, and the sample will be unaffected andkeep its unique superconductive qualities.)

Instead of absorbing the external appliedmagnetic field, the atoms near the resonatingmono-atom producing the Coulomb wave in twodimensions, will now "respond" to it by nestling ina resonance wave (at distances greater than fourangstroms) and the wave will perpetuate, from oneatom to the next, ad infinitum, creating more andmore Cooper pairs or photons (flowing light) withinthe sample. The system of the many atoms actually

has the same physics as that of a single atom.

What is unique about the transition groupelements in this state is that the Meisner field,once created, will not cease its response even if the external magnetic field is withdrawn. Instead,the photons will continue to be created and thewave flow will continue to flow. Now the

superconductor is apparently superconducting onits own.

To resume, the transition group elements withtheir superdeformed "soft" nuclei all resonating toa single frequency, in their high spin low energystate, becoming a wave flow of light in a resonantunified entity, are a resonance coupled system of

quantum oscillators, harmonically coupled in twodimensions. Once the Meisner field is activated,the transition group elements are unique in thatthey become a "quantal wave". Energy now flowson a quantal wave perpetually.


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This effect is believed by Andre Sacharov, HaroldPutoff and others to be caused by a universalenergy , called Zero Point Vacuum Energy ( SuperLight , Ether, Tachyons). It is the natural freeenergy of the vacuum which is the stimulus, whichacts as a natural applied external magnetic field,and makes it possible for these, and only these,natural perfect superconductors to respond asthey do.

Indeed, these pure single elementsuperconductors are extremely sensitive to

external magnetic fields, and can respond to thoseof extremely low potential. A single elementsuperconductor can respond to a magnetic field of 2 times 10 to the minus 15th (2 15 ) power ergs.(That is .0000000000000002 of 1 erg!) The earth'smagnetic field is approximately 0.78 gauss. Thereare 10 to the 18th power (10 18 ) ergs in a gauss.Therefore, these perfect superconductors will

respond dramatically to the earth's magnetic field,as well as to fields surrounding the human body.(This is important to understand to explain theirrole in biological processes.)

We now have individual atoms running in perfectunison with each other producing a quantal waveupon which energy can flow as long as the atom

can derive its energy from the vacuum. Therefore,it is no longer necessary for a manmade system tokeep the flow alive, i.e., in a superconductivestate.
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Josephson's Junctions:

When two atoms or more are perfectlysuperconducting, they resonance-connect andexpel external magnetic fields. However, there is alimit to a superconductor's capability to excludeexternal magnetic fields. This is referred to as HC2. If that amount of magnetic field is applied to thesample, all resonance coupling collapses. Thisphenomenon is utilized as an electronic switch,called a Josephson Junction.

Applying sufficient external magnetic field willstop the flow of energy in the superconductingsystem and switch it off. Releasing the externalmagnetic field will turn the switch is on. Being ableto use Josephson's Junctions for superconductivedevices at room temperature will be extremelyvaluable.

DC Arc Emission Spectroscopy and X-rayAnalysis of Metals

When analyzing these transition group elementsin the monoatomic high spin state by standardspectroscopic analysis (which is based on readingthe characteristic emission or absorption of theenergy caused by knocking the electrons from onelocation to another in the atom), the analysisbecomes impossible because the atom no longerhas individual electrons, only Cooper pairs. Theelectrons have paired to become photons and nolonger exist in "space-time" or at any specific


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location as particles; they are waves of light.Therefore, the monoatomic elements remain"hidden".

When analyzing the atoms in these elements inthe monoatomic high spin state by X-rayspectroscopy, they still can not be seen, even if they are aggregated by taking them to a low spinstate and forming metal-metal bonds. Thedimensions between the atoms range from 1.8 to2.2 angstroms. To be seen by X-ray, their overalldimensions must be fifteen angstroms or larger to

match the fifteen angstrom wave length of the ray,so that the ray can strike the particle twice for it tobe seen. This would take approximately thirty atomclusters in three dimensions. Mono-atoms are,therefore, X-ray amorphous.

In order to identify the transition group elementsin the sample, Hudson prepared the sample into a

metal-metal bonded state, just sufficiently"metallic" to be read by the Russian system of spectroscopy developed at the Soviet Academy of Sciences. Standard spectroscopy requires a morefully metallic state in three dimensions before theelements will read.

David Hudson's Discoveries David Hudson discovered that the monoatomicstate can exist naturally and remain in a stablestate in the transitional group elements. (ORME)He also discovered that in this state, the atoms can


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join to become a many atom resonance coupledsystem of quantum oscillators, resonating in twodimensions, indeed perfect superconductors, atroom temperature. (S-ORME)

Hudson discovered that the precious elements, inthe group of transitional elements, could be foundin a monoatomic form in certain ores and that by achemical method, he could separate them out fromthese ores. The high spin low energy state is stableand naturally maintained. it needs no externalmanmade manipulation. The internal temperature

of the atom is measured to be almost zero degreesKelvin .(approximately three degrees). This is anaturally cold state. It is, in fact, a perfectsuperconductor.

Hudson also discovered that he could preparethese mono-atoms from commercial metallic formsof the transitional group elements as well, and

maintain them in this state by removing thechemical and crystalline energy. This is achievedby providing another element that is highlyreactive and which has a chemical affinity for thetransition element. When they react, they form acompound of the two elements. Through a processof replacement chemistry, hydrogen is exchangedfor the reactive metal. The hydrogen transition

metal compound is chemically removed from thesolution and the hydrogen is thermally annealedfrom the sample. It is inherent in these preciouselements to convert to the high spin state if thisparticular sequence is followed. This process ispermanent and does not have to be continuously


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applied. It is also infinitely less expensive than thetraditional refrigeration process.

Hudson's material can be considered as literallybillions of atomic Josephson Junctions. Hudson'sdiscovery provides superconductivity at roomtemperature and is extremely valuable in allelectronic and power applications.

{Note: Hudson's explanation for the unexplainedenergy released in cold fusion studies is that thepalladium electrode is converting to the high spin

state over a period of several days using lithiumdeuterate, (provided by the experimenter) as anelectrolyte which enables the breaking of themetal-metal bonds of the atoms into themonoatomic superdeformed high spin state.}

Gamma Emission

In Hudson's early research, before he realized thevalue of the monoatomic high spin state, heattempted to force mono-atoms to the low spinstate by the application of extremely high energyin order to make metal out of the mono-atoms.Using an arc furnace (a water cooled coppercrucible with a tungsten electrode mounted above

it and all atmosphere controlled) and an argon gasas the plasma gas, Hudson struck an arc on thesample and within one second, totally destroyedthe tungsten electrode.

Estimations of the heat (BTUs) being generated


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far exceeded any chemical energy possible.Hudson was sufficiently concerned that since 1982he has not attempted to reproduce the procedure.He suspected a nuclear level energy release to becausing the phenomena.

In 1991, Hudson found an article in ScientificAmerican in which Berkeley Brookhaven hadobserved that superdeformed high spin atoms,when subjected to external magnetic fieldssufficient to affect the nuclear quadripole moment,would cause the nucleus to emit gamma radiation

without fissioning. The research physicists doingthe testing at Berkeley Brookhaven was amazed attheir findings. They had indeed confirmedHudson's suspicions about his material.

Without the use of linear accelerators, nuclearlevel gamma emission can be induced to emit fromthe ORMEs in Hudsons material with the simple

application of a DC arc. This discovery hastremendous energy production capabilities.

Biological Effects

When Hudson became aware that the preciouselements in this superdeformed high spin state

could not be analyzed by standard instrumentalanalysis, he realized that they could existeverywhere undetected. There are many publishedpapers where superconductivity has been observedin biological systems. However, no-one has yetunderstood where the superconductivity is


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originating.

Using the Russian system of spectroscopy,analyzed pigs' and calves brains and discoveredthat an excess of five percent by dry matter weightof the tissue was rhodium and iridium in the highspin state. Hudson suspects that the human bodyalso contains quantities of these elements in themonoatomic state.

Nitric oxide is a compound that dramatically pinsthese elements (causes the high spin atoms to go

to the low spin state). The air contains normallyabout one percent nitric oxide. Every breath of airprovides nitric oxide which "kills" the high spinstate of these atoms in the body. In performingthis chemistry, nitric oxide causes the screeningpotential of these atoms to withdraw and removesone of the Cooper paired electrons which comesunder the control of the nitrogen atom.

When this occurs, the electron is annihilated alongwith one of the nitrogen electrons, and produces aone million electron volt photon (gamma levelradiation), which is absorbed by the nucleus of thenitrogen atom.

This has a sufficient level of energy to remove the

positive charge from a proton of nitrogen. Theexcess neutron now causes the nitrogen atom tobecome a carbon atom with 14 nucleons, i.e., withthis an extra neutron to become radioactive carbon14. Hudson believes this is the reason thatradioactive carbon 14 is continually being created
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in all living creatures. (radioactive carbon dating isthe Standard method of dating the age of pastliving system)

In as much as we can not remove nitric oxide fromthe air, the detrimental effects can be offset byadding more of these precious elements in thesuperdeformed high spin state to our diet.

Recently there have been articles in the medicalliterature indicating the emerging value of precious metal salts for anti-tumor activity.

However, the researchers are unaware of thereason the beneficial effect. Hudson believes it isdue to the change in the physical condition of thesalts that occurs in the aqueous saline solutions inthe body. If the cluster of atoms in the salts issufficiently small, they can dissolve to themonoatomic state.

Hudson believes that these elements in theirmonoatomic state correct DNA and are, in fact, the"light of life". His research into this use of monoatomic rhodium and iridium is ongoing. Todate, they are showing to have enormouslybeneficial results with terminal Aids and cancerpatients.

Note on Copper

Copper is used today in Type II superconductors,in the form of yttrium barium copper oxide. It isindeed a high temperature superconductor, but in
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order to maintain its monoatomic state at roomtemperature, it needs the matrix of yttrium ,barium and oxide to keep its atoms at the requisitedistance from each other and to function in twodimensions. Other wise it will form metal-metalbonds, become increasingly metallic and lose itssuperconductive behavior.

Also see ..."Understanding Colloidal Suspensions"

m-state (ORMUS) materials dissolved in water.

New Hudson Page David Hudson's " Grand Science Adventure ""David Hudson at the Ranch" November 16, 1995

The Make Up of Our "Engineerable Atomic World"

The Wonderful World of Advanced Materials

The Resonate Coil Project

Maxwell's Equations in Magnetic Media

Site Link List - Element List - Hydroculture Salts

The Tortoise Shell Life Science Puzzle Box FrontPage

View this page Full Frame

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Meisner Field Biological ORME *** SILVER *** & Gold

Meisner Field Biological ORME * SILVER * & Gold