Fusion Light Signatures

Electro-detonation light flash morphology with specific electrodes, shows high energy secondary reactions occuring away from electrodes that appear indicative of self catalytic, high energy reactions such as localised micro fusion reactions.

Physics

Formation of solids, liquids or plasma where a significant percentage of the electrons are in excited states, is possible using very high direct current stimulation.

Excited electrons quickly return to ground state releasing energy as photons. Photons may be emitted from the reaction site as visible or ultraviolet light. Alternatively photon energy may also accumulate, producing a small number of higher energy electrons, for example muons (heavy electrons). Higher electron energy states will have smaller orbital sizes. Hydrogen with a electron in a higher energy state (such as muon hydrogen) is expected to have a significantly increased fusion probability compared to ground state hydrogen.

Experimental observations indicate that high energy micro reactions, possibly fusion reactions, can be created with fuel mixes containing hydrogen and specific catalysts.

The observed high energy micro reactions may be similar to those responsible for cavitation pitting degredation of pump rotors and turbine blades.

Subtle Atomics is currently investigating energy systems based on the optimisation of this process.

Fusion Probabilities are Increased with Higher Energy Hydrogen States

Energy Concentration Can Form Higher Energy Electron States

Experiments

Method: Fuel mixes containing hydrogen were detonated using electical discharge.

Observations: Certain combinations of electrodes and fuels have been slown to produce very high energy microreactions, observable as distinct star-like light signatures. These reactions may be indicative of fusion or another similar high energy reaction mechanisms.

Conclusion: High energy reactions may be possible using low energy triggers from the formation of super-excited hydrogen, in gaseous (H₂), covalently bonded molecular (X-H), or in hydride form.

Experiment and photography

by Subtle Atomics.

Acknowledgements:

Previous LENR transmutation observations include those by: Andrea Rossi, Yasuhiro Iwamura and Mark LeClair.

Provisional patent lodged.