There is a interesting paper(s) from 1992/1993 by J. A. Maly floating around in cyberspace and meme-land this week: ELECTRON TRANSITIONS ON DEEP DIRAC LEVELS. The original appeared in Fusion Technology. http://www.fulviofrisone.com/attachments/article/359/Electron%20Transitions% 20on%20Deep%20Dirac%20Levels%20II.pdf
DDL= deep Dirac levels. Apparently this has been mentioned recently on CMNS,
but they may have missed the most important inference from the paper - which
could be "DDL in the context of f/H".
A DDL is essentially a very close electron orbital which is permitted by
relativistic interpretation of QM and other math which above my pay grade.
The authors opine "A single electron atomic transition on the DDL level
should produce a very large energy release, in the region of 300 to 511 keV
per transition. If such transitions could be made on the surface of the
Earth, it could produce an enormous amount of energy, which could be used
practically."
Nice! But in fact, there is even more energy available than the decay of the
close electron transition- that is, if we should find that Mills is partly
correct and that a redundant hydrogen species is available as a "hydride"
with a net negative charge. If so, that species f/H- can fill the close
orbital of Li-7. Having nearly 2000 times more mass than an electron, and
about the same charge, this is actually a perfect combination for lithium,
in particular.
I use f/H to refer to "fractional hydrogen" which is an alternative way to
describe the superset of "hydrogen redundant ground states" - what R Mills
calls "hydrinos" (tm). Since Mills has chosen to trademark the term, and
since others (like Robin, Dufour, Miley, etc and myself) have alternative
concepts that are close but not identical to Mills, and since a few of us
have received letters from his attorney to the effect that he does not
authorize uncredited use of the word "hydrino(tm)", without the little
symbol, which is a pain in the butt to type in every time - my suggestion is
to switch terminology to "f/H" or to "fractional hydrogen" to describe this
species which also allow it cover other interpretations of dense hydrogen
including the inverse Rydberg state.
Anyway back to the main subject of this post: "DDL wrt f/H" (wrt= "with
respect to").
Think about the ideal fusion reaction. IMHO the best candidate on paper is
Li-H, where lithium of mass 7 reacts with a proton to produce unstable
beryllium 8, which splits very quickly into two very hot alpha-particles
(helium). There is no residual radioactivity or primary gammas and the
transmutation ash is clean and valuable. There should be bremsstrahlung or
secondary radiation (not seen) but because the reaction includes the prior
transition to an isotope of beryllium, we may have found the reason that
very little secondary radiation shows up without recourse to magic phonons!
In fact Be-8 may decay in steps via EUV release followed by two alphas. This
is becoming most elegant in the details.
This Li-H reaction, has been called "fusion/fission" since it is a bit of
both, but the net gain is equivalent to about 17 MeV divided equally between
the alphas - which is about 20 million times greater than combustion, pound
for pound.
Not bad, and the reaction is made possible by f/H- which is the negatively
charged ("hydrided") version of f/H.
Jones
<<attachment: winmail.dat>>
