There is a layer of dark mode hydrogen that accuculates near the surface of the hydrogen plasma ball in the Safire experiment. It absorbs energy until it reaches a limit where it erupts. The input power is 1800 watts of DC power and the power produced during an eruption is 2,000,000 to 10,000,000 watts. There is also signs of a material with a nucleon count of 3 being produced in the experiment.
A theory that could explain the development of the dark layer is the "Dark mode" polariton soliton theory. The polariton "Black Hole" absorbs energy until it reaches a limit whereupon it explodes in a bosenova. There is an energy storage mechanism in play here and a possible indicator of a Bose condensate as witnessed by a coordinated release of a huge amount of stored energy. This is a behavior that would be expected in a system centered on Dark Mode polariton micro black holes. This behavior is also seen in the experiments of Holmlid and defkalion among many other LENR experiments.
This theory can be verified by the appearance of K-mesons and its decay products such as muons and electrons. A particle detector that follows Holmlid's design might work well in the Safire experiment it show that a tachyon based nuclear process is happening in Safire.
This Safire experiment looks a lot like the plasmatron, an overunity power device produced in the 1980's using hydrogen based plasma.
Experimenters in overunity could duplicate the Safire and/or the plasmatron experiment and test for emissions of sub-atomic particles.
It may be possible to take a sample of the gas from the dark hydrogen layer and use a photographic emulsion to check for monopole based tachyon tracks as is commonly seen in many LENR based experiments.
