Eric-- Another potential source of H for the Rossi reaction may be an organic molecule with hydrogen bonds. Thermal agitation will release the H readily and cause the molecule to come apart. Again an appropriate magnetic field could draw the H in close to a Ni nucleus given enough electronic shielding. A Cooper pair of H may want to form a duplex BEC with other Bose species in the nano particle of Ni---Ni-60, Ni-62 and Ni-64 all are 0 spin nuclei.
A interesting experiment would be to run Rossi's reactor with selected Ni isotopes and note any differences in the energy output. It would not surprise me if this has not already been accomplished under the advice of Focardi to better understand the process. The hot cat may in fact use enriched Ni-?X isotope because of its superior reaction rate and/or need for a higher temperature to be self-sustaining. The Hot Cat catalyst may also utilize a higher work function compound to release H at a higher temperature and controlled rate. Zr-H may again be used in the Hot Cat because it would be formed at about 950 F and potentially decompose, releasing H at a higher temperature of 1100 or 1200 C. Bob ----- Original Message ----- From: Eric Walker To: [email protected] Sent: Friday, September 05, 2014 9:38 PM Subject: Re: [Vo]:LENR <-> dark mater <-> DDL connection-- On Fri, Sep 5, 2014 at 8:54 PM, Bob Cook <[email protected]> wrote: Thus a low work function metal hydride with good magnetic properties would be ideal. Note that an alpha or a beta emitter will also dissociate molecular hydrogen into monoatomic hydrogen (and potentially Rydberg hydrogen at that, which will migrate under a potential). (I like a material with a low work function because it could potentially be heat-activated, as seems to happen with the E-Cat.) Eric
