When analyzing the Parkhomov image, one thing you should note is that he wound his reactor with a Ni-Cr (type-c) ribbon wire (not round) having a width of about 2.5mm and a gap of 0.5mm.
Bob Higgins On Tue, Jan 13, 2015 at 11:56 PM, Bob Cook <[email protected]> wrote: > Jones-- > > I observed the the same thing in the picture provided by McKubre in his > current evaluation of the test in Infinite Energy #119. An observation > reported by Storms via McKubre's report questions the report in that the > temperature measured at the center by the T/C does not seem to respond like > it should with increased power density during the production of excess > energy per the report. (Cold Fusion Now also has McKubre's report.) > > From the picture it looks like the temperature is not uniform along the > reactor axis but has more of a sign wave configuration along the axis with > hotter spots nearer the ends. There is only one T/C and this may only be > an illusion. > > However, There may be a standing wave of Li atoms controlling the reaction > with their density being the controlling parameter. I guess the varying > energy production along the axis could also be the result of other > parameters that control the reaction like a magnetic field or nodes in > a standing sonic wave. > > This could explain the concern Storms had relative to the temperature and > energy density correlation. > > KcKubre's report is excellent. > > Bob Cook > > ----- Original Message ----- > *From:* Jones Beene <[email protected]> > *To:* [email protected] > *Sent:* Tuesday, January 13, 2015 9:27 PM > *Subject:* [Vo]:Dark wires in glowing reactor ? > > There have a number of comments about images from the Parkhomov/Rossi > reactors which appear to show dark wires in front of a brightly glowing > background. > > > > Yet … we know that these wires should be strongly incandescent (unless the > photo was taken immediately after the current was turned off)… and if the > wires are powered, they will be glowing so brightly by themselves that they > should not be seen as dark, even if the interior of the reactor were > brighter than the wires themselves. There is no evidence that the current > was off - so we should look for other explanations. > > > > Another explanation which has not been voiced till now –is the “dark > matter in operation” explanation J > > > > If “dark matter” can be defined as hydrogen in the Deep Dirac Level – the > lowest orbital, and there is recent evidence from Cosmology that this could > be the case, then we can explain the dark wires as being actively shielded. > The mechanism for that shielding could go something like this: Hydrogen in > the DDL is greatly reduced in diameter so that it cannot be contained by > the ceramic - and the isomer atoms would diffuse through the alumina (which > is a dielectric) as soon as they are formed. This species would also be > strongly paramagnetic and thus attracted to a current carrying wire. > Therefore, it can be proposed that a very thin layer of DDL –possibly only > a few atoms in thickness would attach to the wires uniformly, following > which they would actually become “dark” in the sense of strongly blocked in > the visible spectra but emitting photons which are invisible (soft x-rays)… > > > > … or not. But it makes for an interesting hypothesis. > >

