So the phenomenon did traverse the film in this older paper you quote. Strangely, as I said they clearly said it didn't, "under any condition", in the more recent paper we were discussing: http://www.lenr-canr.org/acrobat/RoutRKphenomenon.pdf
"In all the autoradiographs obtained (under any condition), the fogging was always observed only on the side of the film facing the samples, in spite of the fact that the X-ray film is transparent to optical radiation and had sensitive coating on both sides. This confirms the low range of the radiations and absence of optical emissions." Maybe they found an experimental error in the earlier experiments? It would be interesting to see their most recent papers on the subject. Michel ----- Original Message ----- From: "Jed Rothwell" <[EMAIL PROTECTED]> To: <[email protected]> Sent: Friday, June 08, 2007 5:20 PM Subject: Re: [Vo]:Rout ICCF3 paper Michel Jullian wrote: >They also ruled > > it out by placing one film behind another and observing the same > > pattern of radiation on both. > >Mmm, I doubt this, since the radiation doesn't >cross the film as they say quite explicitly in >the paper (in the two-sided film they find that >only the top emulsion is impressed). See: http://lenr-canr.org/acrobat/RoutRKautoradiog.pdf Quotes: "In order to achieve good resolution of the image, the sample was kept very close to the X-ray film. Standard medical X-ray film of medium grain size (10 to 15 ยต m in diameter) on cellulose triacetate base was used for this purpose. The exposure time used for the deuterated samples varied from 18 hours to a few days. At times a stack of several films was used. In some cases films were placed on both sides of the sample. . . . The fact that the second film of a stack of films exposed to the target also indicates similar though less intense spots, rules out the possibility of any kind of chemical reduction reaction caused by the deuterium or hydrogen in the target being responsible for causing the spots." Some of the autoradiographs are beautiful. Here is a scan of one of the titanium cathode x-rays: http://lenr-canr.org/Experiments.htm#AutoradiographsMSrinivasan Click on the image for a larger, 300 dpi positive scan, suitable for framing. - Jed
