Bob-- Look at slides that follow #49—like about 57 and 60 or so. The first is a multi-colored spectrum of some different runs I believe in Nano meters up to about 500. And the second is a calculated spectrum for a black body for 5000 D Kelvin. Note that the multi-colored graph shows each run of the colored lines turning into a black body spectrum for about 5000 D K.
If some material stands 5000 D K for any length of time, I would like to know what it is. May Iridium oxide or some heavy trans-uranium oxide. I do not think thoria lasts very long at that temperature? Maybe it is a metal hydrino compound Bob Cook From: Bob Higgins Sent: Friday, February 05, 2016 8:03 AM To: [email protected] Subject: Re: [Vo]:BLP demo video Thank you, Axil, for this link. It is slide 49, in particular to which I am making reference. In this slide you can see the soft x-ray set of lines around 20-60nm, and another set of deep UV lines from 120-300nm. What I was saying is that the band from 120-300nm is explain-able from the 10V source, capable of providing 10eV direct excitation, while the lines from 20-60nm are harder to explain. In fact, it is hard to measure this spectrum ... I wonder what he used to measure it. On Fri, Feb 5, 2016 at 8:31 AM, Axil Axil <[email protected]> wrote: Dear Dave, This may help http://brilliantlightpower.com/wp-content/uploads/pdf/TechnicalPresentation1.8.16.pdf These are the slides used in the demo Slide 53 and/or 57 are what you might need to see what you want.
