Electron Waveform Variation
Experimental observations of light flashes during electrical arcing shows significant variation in the morphology of the light flashes. Variations are typically more dependent on electrode type than fuel mix.
Observed variations in light flash morphology could be due to either:
- Electrode surface reactions or catalytic effects,
- Ejected/vapourised metal reactions, or
- Variations in electron waveform within electrodes and conductors that depend the on conductor material composition.
Observations that electrode type has a greater influence on light flash morphology than the fuel mix, are consistent with variations in the electrical waveform within the conductor/electrode and/or reactions involving electrode materials.
The potential for variations in the form of electrical electrons is consistent with previous observations of variations in the form of atomic electrons, such as excited electron states, electron fission observations (Wei, 2014) and below ground state electrons (Mills, 2016).
S. Brink
19th September 2016
S. Brink 14th August 2016
Experiments
Method: Arc flashes from electrical discharges across various electrical conductor electrodes were photographed.
Observations: Light flash morphology typically varies more depending on the type of electrodes used compared to the fuel mix placed between the electrodes.
Conclusion: Arc flash morphology depends on electrode type, indicating that electrodes are likely to be playing a significant role in the observed reaction, either as catalysts, as reactants and/or by varying the waveform of the electrical electron.
Experiment and photography
by Subtle Atomics.
References:
Wei, W. et alia (2014), Study of Exotic Ions in Superfuild Helium and the Possible Fission of the Electron Wave Function, Journal of Low Temperature Physics (2015) 178:78-117.
Mills, R,. 2016, Grand Unified Theory of Classical Physics
self published on the Brilliant Light Power website
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