when going through the curie point the stored energy must be released somewhere. Pulsing magnetic fields do seem to trigger effects: see http://www.lenr-canr.org/acrobat/CravensDpracticalta.pdfslide 14 RF doesn't work too well on bulks and electrochemical due to the skin effect. The flip side is interesting however, listening to an active cell "sing". Normally around 20-30 MHz and around80 and 100 for mine. But that could just be ringing from the bubbles causing shot noise in the circuits. (???) Dennis Cravens Oh you might want to check the curie point of Ni alloys and Pd alloys (with Co or Ni impurities). I see a chart in my old Amer. Inst. of Phy. handbook- ed3 a little Ni (a few percent- extrapolated) in Pd drops its curie point down to 50 to 70 C. Recall heat pulses can trigger Pd system about there. That is why you need to run them >50C which most people miss for some reason. - just my view. From: [email protected] To: [email protected] Subject: RE: [Vo]:First post about LENR Date: Thu, 21 Feb 2013 08:55:43 -0800
There’s more… Speaking of RF frequencies and surface resonance triggering – and since Ni-H reactions can be significantly different from Pd-D (and since we have not heard from Frank Z on this topic yet) … here is a bit more information. This is a chart which shows a rather precise linear - and tight - temperature-to-frequency correlation for Ni, near the Nickel Curie Point. Many results going back to Arata, including Ahern and others - find Ni-H triggering near the Curie Temp – 358 C. http://www.overunity.com/10039/ground-breaking-work-of-frank-znidarsic-cold-fusion-anti-gravity-explained/dlattach/attach/102481/image// I do not know where he got this information – so maybe he will share that with us. This would not apply to Pd-D. If accurate, this might indicate that focusing on the host material is as important as spin-flipping of proton and also the wisdom of getting hold of VHF transmission equipment capable of very precise frequency stimulation.
