Display MoreSome of it is useful... a whole lot more than QED/QCD for the nucleus.
The experimental verification of the hydrino??
The strongest evidence is for what Mills calls 'hydrino H2(1/4)'
which is a shrunken H2 or D2 molecule.
which releases?.. 495 eV on formation.
"predicted molecular hydrino H2(1/4) was identified as a product by Raman spectroscopy, photoluminescence emission spectroscopy, and X-ray photoelectron spectroscopy (XPS).
This is a huge amount of energy compared to 13.6 eV for the electron leaving a proton
The evidence for any other hydrino is much weaker.
Holmlid has exptal evidence for similar energy order to 495 eV energy in his shrunken dense hydrogen.
Wyttenbach has an NPP2 calculation of dense H2 D2 energy of almost exactly 495 eV.
This huge released energy may be useful in LENR reactions.
It is conceivable that some of those 3mg of D2 in Mizuno's R20 reactor while being shrunk
" I shrunk the D2,, honey"
are releasing that 495eV energy into the nickel/palladiumdeuter
What would be the combined exothermic results of a symbiotic cumulative reaction with hydrino like hydrogen reactions (495eV) and muon catalyzed room temperature D+D fusion going on in the same device? Of course using numbers as described by Mills, Holmid and other smart people in this thread (laser light, heating elements, electrical discharge, and catalysts). I like this explanation cause it doesn't involve vacuum energy and all that overunity nonsense, It's calculable within E=mc^2.