https://steemit.com/mfmp/@homo…nson-key-point-transcript
QuoteDisplay More@27m55s - What are charge clusters
KS “See and EVO is a cluster it’s a way of thinking of it, of electrons, and you know, in physics as well, you can get; cooper pairs, Muons (207 × electron), Tauons (3477.48 × electron)… they are all just clusters of electrons of a larger size - but heck, they rarely go above 100s and I see them into the billions worth - no trouble at all. So I am working with a WAY upscale class of guys.
Their physically large enough to see but they are in the diameter of a hair”
…
“I have seen a 5 and 20 um one and my present job is to get them bigger and bigger and bigger”
“U have been able to use these little biddy machines I make to get them up to 100um so far.”
KS “they are stable unless I intentionally blow them up”
The EVO is a soliton of magnetism, an aggregate of a large numbers of spins from electrons and photons that collect in a bose condinsate. This aggregation of spins become metastable because it can feed itself but it is still in the magnetic dipole state and therefore cannot self stimulate and become destructive.
From:
Theoretical Analysis and Reaction Mechanisms for Experimental Results of Hydrogen-Nickel Systems
Yeong E. Kim1 and John Hadjichristos
Quote3.3. Magnetic field measurements
After each triggering duty cycle (the triggering sequences producing excess heat), the magnetic fields at ~18 cm from the reactor at all three locations rose from ~0.6 Tesla to ~1.6 Tesla (DC peak) during each reaction period. Such anomalous peak signals were maintained for approximately 3-4 sec after the HV currents were cut off. This indicates that interactions/reactions within the reactor are producing very strong electric fields E (and currents I plus nano-plasma) between the Ni grain nano-antennas, as suggested by Ostrikov et al. [26], and very strong magnetic fields B, possibly enhanced by gallery whisper effects due to reactor’s internal structure and geometry. Such strong magnetic fields are used within Hyperion reactor’s architecture to stabilize the plasma generated by the HV discharges in non-vacuum conditions.
A new series of protocols and tests is expected to investigate the possible role of metal surface plasmons on the active Ni crystals lattice, as described by Durach et al. [27], for such “anomalous” magnetic field emissions and their role in the reactions, as predicted in section 7.
In the Defkalion system, the activation spark produces the high EMF tension field that generates the KERR effect.
The results reported by this Defkalion research paper looks a lot like what is going on inside the QX. specifically, the 4 second self sustained period of energy generation after the input energy is terminated. However in the QX system, the activation signal is the light produced by the high intensity bulb mechanism.
In the spectroscopic portion of the QX demo video, the light produced by the plasma during the self sustain period of the cycle did not stop when the input power was shut down.