In reply to Eric Walker's message of Sat, 3 Nov 2012 16:15:10 -0700: Hi, [snip] > 20Ne + d -> 18F + ? > 17O + p -> 18F + ? > 40Ar + d -> 41Ar + p > 68Zn + d -> 69Zn + p > 70Ge + d -> 68Ga + ?
16O + Hydrino molecule => 18Ne which decays in seconds to 18F, which has a half life of 109 min. Alternatively one of the shrunken electrons of the Hydrino molecule may undergo enhanced electron capture, resulting in the direct formation of 18F from 16O. Alternatively 16O + D => 18F directly. 47Ti + Hydrino molecule => 49Cr with a half life of 42 min (possible measurement error?) If D was available, then Hydrino molecules such as D2 or HD are also possible, which means that one can also try adding 3 or 4 nucleons to all the isotopes present to see if either an isotope with a 58 minute half life is formed directly, or after a the decay of another isotope with a very short half life. The list could be narrowed considerably perhaps even definitively, if the decay energies were measured in a professional lab dedicated to the purpose. Another alternative which may not have been considered, is the possibility that what they are seeing is not decay times, but fusion times, with prompt emission when fusion occurs. Every fusion reaction will have a half life that depends a.o. on the separation of the isotopes involved in the reaction, thus Hydrinos of different sizes will have different fusion half lives, which may vary from femtoseconds, for the smallest, to multiple universe lifetimes, for the largest. Regards, Robin van Spaandonk http://rvanspaa.freehostia.com/project.html
