Something you see on an X-ray film must happen quite often. The real
mystery radiation look like a neutral particle with much higher energy
in the 32MeV range. The other is the 3.5keV peek from "may be" dark matter.
This can easily be derived from 500eV together with the energy of the
second proton magnetic momentum collapse step that delivers 4034 eV This
energy can only be transported by a local electron at a -500eV orbit so
it results in 3.5kev. Remember that dense hydrogen forms clusters.
J.W.
By the way Mills has the best measurement tools for all frequency/Energy
ranges also for 1 ...1000eV !
Am 25.10.19 um 16:54 schrieb Jones Beene:
Jürg Wyttenbach wrote:
+ R.Mills 505/496eV (inside his business reports...)
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OK but are you suggesting this ~500 eV level is a good candidate for
the characteristic mystery radiation?
Unless RM has changed course - this level could be an ultimate
theoretical stage of shrinkage but not a characteristic of any
particular device. Plus it is in a range which is difficult to detect
due to lack of proper instrumentation. The difficulty of identifying a
characteristic energy spectrum in general (a so-called mystery
radiation) based on Mills would exist because there are actually no
peaks in practice but instead a graph of step-wise noise punctuated
with periodic drop-offs ... and to make things worse, all emissions
are thermalized rapidly. Thus you have a large overlapping array of
output levels which can show up as fogging on film but further
analysis is nearly impossible. For Mills of course - actual fusion is
not expected (or common).
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Jürg Wyttenbach
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