Wow. Impressive amount of computational effort. This could be helpful for the design stage of many refined experiments.
One hopes that that the data was set up and crunched in an automated computer program - or else you must be snowed-in due to El Nino, with no other hobbies ;-) One question: was nuclear spin not considered for a reason? IOW is conservation of spin an issue with deflation fusion? I was looking through the various tables to try to find reactions which seemed most probable from a minority perspective - that is, if one began with the premise that Mills is partly correct insofar as his experimental results confirm his claims, and that deflation fusion is compatible with the early stages of CQM - and also that Iwamura's experimental findings are important. He tends to be overlooked. As you may be aware, Strontium is one of Mill's best catalysts for Rydberg matching in the IP, and the main isotope is 88. The fourth reaction on your table for that isotope would then be a great candidate from this perspective- especially if one wanted to find at least two reaction products to carry away excess energy, with one of them being an alpha. 88Sr38 + 6 D* --> 96Mo42 + 4He2 + 77.258 MeV [13.225 MeV] However, that is almost too much energy to imagine as possible without a strong gamma signal, unless much of it could be deposited "elsewhere". Jones -----Original Message----- From: Horace Heffner The following URL contains links to various nuclear reaction equation reports I have created relating to LENR: http://www.mtaonline.net/~hheffner/dfRpt This is a work in progress, nothing is finalized, and all conclusions are tentative.
