Bob - There were substantial changes made by Va’vra in moving to QED which confuse the overall situation - but when we look at the big picture – and consider all the theorists who have looked at the DDL, there is still an excellent fit for the 3.7 keV species of Naudts fitting the mold of dark-matter, virtual monopole, DDL, deep hydrino and most of the gain seen in LENR. That was basically the intent of this post.
https://www.mail-archive.com/[email protected]/msg96638.html
As you know, the possibility of real fusion has been
marginalized in this view, since it is no longer needed with the DDL, and it
requires the “second miracle” of lack of gammas.
From: Bob Cook
Jones--
After reviewing this thread I do not think I made the
following observation stemming from the theory of relativistic DDL discussed
by Vavra etal in their 1993 paper. It notes that the strongest repulsion of
the lower electronic levels is not the lowest energy level, but about level
10. This suggests that there is a potential well attracting enectrons to
the lower levels with only a relatively little kinetic energy to get there.
This may work to cause fusion much like muon catalyzed
fusion is though to proceed.
I do not know if Vavra etal has disavowed this part of their
theory since 1993.
I do not have his/their later papers.
From prior post:
The characteristic interaction of monopoles
with each other
is strong mutual attraction up to a fairly substantial
distance (cm range
perhaps) and then strong mutual repulsion thereafter,
leaving a large gap
which prohibits any dense aggregation of DDL, but yet
encourages large
diffuse clouds of dark matter having substantial net mass
which cannot
densify due to gravity, since the magnetic forces is so much
stronger.
For those who do not have an understanding
of the phenomenon
of attract/repel, with a large gap in between - here is a
visual demo of
poly-magnets in spring mode, which precisely simulate in 2D
the
characteristic of monopoles in 3D.
http://www.youtube.com/embed/J8w6gwSm_ak/?autoplay=1
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