Muon detection studied by pulse-height energy analysis: Novel converter arrangements
Two different sources for producing H(0) have been used for this study. They are similar to a source described in a previous publication.28 Potassium-doped iron oxide catalyst samples (cylindric pellets)32,33 in the sources produce the ultradense H(0) from hydrogen or deuterium gas flow at pressures of 10−5–100 mbars. The sources give a slowly decaying muon signal for several hours and days after being used for producing H(0). They can be triggered to increase the muon production by laser irradiation inside the chambers or *sometimes even byturning on the fluorescent lamps in the laboratory for a shorttime.* On Sat, Apr 17, 2021 at 8:29 PM Jones Beene <jone...@pacbell.net> wrote: > It would be helpful to know if they tried the available wavelengths of > lasers and chose the best ... as this seems like one of those details which > should be high priority... > > Axil Axil wrote: > > > I heard from Sveinn Ólafsson that Holmlid can also activate the ultra > dense hydrogen by using a spark. > > Jones Beene wrote: > > Holmlid notably uses laser pulses in the 532 nm spectra to form ultra > dense hydrogen or deuterium. > > As it turns out, the same greenish spectra of the laser has also been used > to form the breakthrough material which has been called "the first room > temperature superconductor" a few months ago ( Note that there have been > numerous other strong claims for this breakthrough before, but Wiki sez > this one is the first - although it is not clear who has replicated the > work). > > https://en.wikipedia.org/wiki/Carbonaceous_sulfur_hydride > > Anyway ... the point of this post being that laser irradiation at this > exact frequency 532 nm also turns up in another disparate situations where > hydrogen densification is apparent. > > Previously with the Holmlid work, observers thought or assumed that the > greenis laser spectra related to irradiation of the catalyst, not the > hydrogen itself. > > The RTSC work would seem to indicate that it is the hydrogen which is > responding to the photons not the catalyst, which although coherent (the > wavelength) is spatially way out of proportion to interact with atoms of > hydrogen... many orders of magnitude difference, in fact. > > Somehow, I get the strange feeling that this detail - the identical laser > wavelength used to activate hydrogen, is not coincidental... > > Jones > >
