Resonant Atomic Transmutation of Gold into Platinum

The Geyser Reactor: Gold to Platinum Transmutation

by Alex Putney for Human-Resonance.org
August 13, 2014

The resonant transmutation of gold into platinum is achieved by precision control of atomic resonance in a two-stage reaction that is safe, non-toxic and involves only low energies. Gold becomes instilled with the resonant atomic frequency signature of hydrogen, before being rapidly quenched to trigger bulk conversion into hydrogen and platinum --according to the established frequency 'memory' of the standing wave field of each atom.

The first stage of the transmutation reaction maintains the starting element (gold) at the phonon resonance frequency of the target bi-product element (H¹), during a 3-hour dwell time exposed to O₂ gas nanobubbles.

Protium, the lightest hydrogen isotope (H¹) provides the resonant target frequency for this reaction, as determined by the following formulae (calculated using the latest atomic data sets for the elements, provided in blue):

The resonant frequency of hydrogen isotope (H¹) in its rest state is 3,773,180 Hz, according to the element's atomic diameter at 20°C. Oxygen isotope (O¹⁶) resonates at this same frequency when heated to 37.8°C:

The rate of gas absorption (velocity of penetration) into the metal surface interface is enhanced by increased temperature, pressure and electric current. Oxygen gas adsorbed onto metal surfaces undergoes molecular dissociation and subsequent absorption into the crystal lattice of heavier metal atoms.

The second stage of the transmutation reaction involves the subsequent trapping of absorbed gases into gold atoms by the induced shock of rapid cooling. The sudden contraction of the atomic lattice forces the interstitial absorbed atoms into quantum instability as the strongly repulsive nuclear forces of the adjacent metal atoms close in simultaneously on each gas atom from 6 sides (along the x, y and z axes of the lattice).

Instead of rapidly contracting, some of the gold atoms are able to maintain the previously established resonant diameter by ejecting protons, neutrons and electrons into available interstitial spaces within the lattice, thereby decreasing the atomic weight of gold atoms to induce the formation of hydrogen and platinum.

Gold to Platinum

The oxygen-dependent low energy transmutation of gold into hydrogen and platinum occurs in aqueous reactors, based on phonon matching of oxygen (O¹⁶) at 37.8°C with hydrogen (H¹) at rest (20°C), as in human blood.

_* Gold is heated to 37.8°C with oxygen, releasing hydrogen atoms to form platinum during rapid cooling:

Hydrogen provides the exact atomic mass required for the conversion of gold into platinum. Clear atomic mass recombination patterns define fission bi-products ejected from gold nuclei during the quantum trapping event:

From the book The Geyser Reactor

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