Jones,
I don't believe in the hydrino definition regarding fractional ground
states but Yes I do think "fast" or "relativistic" hydrogen is involved at a
fundamental level in all of LENR. Below is a snip from Wikipedia on Balmer
series visible light spectrum from hydrogen. I suspect the gradient of the
equivalence boundary as suggested by Di Fiore et all is shifting the visible
spectrum in the same way vacuum fluctuations are supposed to be upconverted. If
you can accept that upconversion is relativistic and not just displacing long
flux in favor of short then space time itself twists inside the cavity taking
EVERY spectrum with it from our perspective. Why darker visible instead of
lighter is beyond my skill set but perhaps there is a sub visible line that
becomes dominant and exhibits itself as Black Light plasma?
Best Regards
Fran
[Snip from Wikipedia]
The visible spectrum of light from hydrogen displays four wavelengths, 410 nm,
434 nm, 486 nm, and 656 nm, that reflect emissions of photons by electrons in
excited states transitioning to the quantum level described by the principal
quantum number n equals 2.[1] There are also a number of ultraviolet Balmer
lines with wavelengths shorter than 400 nm.
[end snip]
-----Original Message-----
From: Jones Beene [mailto:[email protected]]
Sent: Tuesday, September 15, 2009 11:08 AM
To: [email protected]
Subject: RE: [Vo]:The cost of materials is not a barrier
The big surprise, if one believes that a version of the Mills
hydrino/deuterino is involved at a fundamental level in all of LENR, would
be the appearance of EUV.
Unfortunately this radiation spectrum is "universally absorbed" by every
element in the periodic table, so you would need to somehow incorporate the
detector into the electrode itself.
Mills uses a pinhole detector.
-----Original Message-----
From: Abd ul-Rahman Lomax
If we are looking at an active surface, what will we see in the
visible and near-IR?
