Quote
mospace.umsystem.edu/xmlui/bit…sisReactionMechanisms.pdf
will be replaced by a continuous production of gamma radiation as the magnetic field destroys the state of bose condensation inside the reactor.
I am happy that we now have the chance to test these theories in a open source format.
There is posibility also that clean/dirty mouse occurance depens from electron mobility. If have enviroment that don't have enough mobile electrons then mouse happens dirty. If electrons are enough free then clean mouse that cannot see. Maybe better to talk invisible mouse..
Arc plasma enviroment have less mobile electrons than molten Li enviroment. In good enviroment, only very slight heat, nothing else but neutrinos and some ppm D2 rise.
We have lucky to see dirty mouse some amount. it give hope we find invisible mouse some day.
Btw dirty mouse coulomb barrier ~1Mev, how about invisible one? Invisible occur in stars very little (0.3%), but if electron mobility/pressure is high enough
how much pros it can take and is it coulomb barrier lower - So it occur easilly in molten Li than dirty mouse. (thing that render dirty mouse harder to find if clean go first and eat all cheese..)
In B-fields brake radiation may polarize. Can it give any information what happens inside? If high fields brake bose condensation then it is maybe usable reactor controll mechanism. Give fields that stop D2 production so further chains cools down.
It is claimed that reaction occur when bose condensation keep diproton long enough to decay D.
Shown Ni powder have cavitys that go smaller when deepr. They may do high capillary pressures in bottom?