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Fusion Accelerators and Deuteron Diameter

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awh...@facell.com

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Sep 1, 2006, 6:04:22 PM9/1/06
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[ Sci.physics.plasma moderator's note: followups set to
sci.physics.accelerators. -- Jim Logajan ]

Fusion Accelerators and Deuteron Diameter

At http://www.fusionaccelerator.com you can see an updated version
of the discharge accelerator tube described in Nature etc by
Rutherford and
Oliphant in 1934. that produced " an enormous emission of fast
protons implying fusion reactions and emitted when deuterons collide
with a steel target] too large to be followed by our amplifier and
oscillograph".
Their results suggest that exothermic fusion reactions between
deuterons enlarged
beyond the 10^-15 meter diameter inside atoms and molecules, are
produced. In deuterons accelerated through a potential difference of
20kV or more (If we assume the deuterium nucleus outside the deuterium
atom does not increase beyond
this accepted diameter, then Rutherford's results cannot be
explained.)

Such increases in the size of nuclei are indicated by nuclear
spectra etc., and Sansbury's discussion
(http://mysite.verizon.net/r9ns/book03.htm )showing that atomic nuclei
and electrons in current carrying wires are transversely excited by
electric fields forming large enough electrostatic dipoles(charged
particles inside the electrons and nuclei) to account for the magnetic
force between current carrying wires and the apparent mass increase of
free electrons as the rate of polarization inside the electron
decreases near the speed of light limit. Both of these observations
suggest that the size of atomic nuclei can be greatly increased beyond
their size inside atoms and in specific collision experiments. Also
that the distance between protons or deuterons in a strongly
accelerated and focused proton or deuteron beam is smaller than
supposed.
A meter and half long proton beam of 10^20 protons/cm^2/sec where
the protons (or deuterons) are accelerated by a 100kV in a vacuum of
10^-7 Torr with a mean free path length of many meters on colliding
with a steel wall involves an accordion squeeze effect that reduces the
distance between the impinging enlarged deuterons at the same time the
resulting increase of positive charge pulls electrons inside the
grounded steel collision chamber toward the impinging deuterons.

Based on this data and the present energy situation, I am looking for
help in building and testing such a Rutherford Oliphant discharge tube
accelerator reactor. Write to
awh...@fusionacclerator.com


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