But the experiment was done in the MHz range... 2012/4/6 <fznidar...@aol.com>
> Did that. > > http://www.angelfire.com/scifi2/zpt/chapterb.html#Pg6 > > Maybe it is the case of cooling the experiment with liquid nitrogen, to > avoid self interference with the experiment. 8THz blackbody is a peak > around 140K, so 71K is far away from that peak. > > > > > -----Original Message----- > From: Daniel Rocha <danieldi...@gmail.com> > To: vortex-l <vortex-l@eskimo.com> > Sent: Thu, Apr 5, 2012 10:13 pm > Subject: Re: [Vo]:Stimulation of LENR using dual lasers, creative > engineering needed > > Maybe it is the case of cooling the experiment with liquid nitrogen, to > avoid self interference with the experiment. 8THz blackbody is a peak > around 140K, so 71K is far away from that peak. > > > 2012/4/5 Abd ul-Rahman Lomax <a...@lomaxdesign.com> > >> At 12:30 PM 4/5/2012, Daniel Rocha wrote: >> >>> If you are not concerned with a narrow broad band, you could use a >>> blackbody emission. According to Wien's displacement law, 14.8THz to >>> 22.5THz, >>> >>> <http://en.wikipedia.org/wiki/**Wien%27s_displacement_law#** >>> Frequency-dependent_**formulation<http://en.wikipedia.org/wiki/Wien%27s_displacement_law#Frequency-dependent_formulation> >>> >http://en.**wikipedia.org/wiki/Wien%27s_**displacement_law#Frequency-** >>> dependent_formulation<http://en.wikipedia.org/wiki/Wien%27s_displacement_law#Frequency-dependent_formulation> >>> >>> gives 251K to 387K. >>> >> >> The frequencies of interest are far infrared, or sometimes called >> mid-infrared. Blackbody emissions certainly exist in the range, but are are >> at low levels and are not coherent. >> >> I've been speculating, though, as an aside, that the erratic results of >> cold fusion might have to do with the presence or absence of environmental >> THz radiation. I don't know if anyone looked for this, and don't place a >> lot of weight on the idea.... >> >> -- Daniel Rocha - RJ danieldi...@gmail.com