Storms theory may get into this?
On Wed, 14 May 2014 13:45:26 -0700, "Jones Beene" <[email protected]> wrote: > -----Original Message----- > From: [email protected] > >> If the energy levels between isomers are small enough there may be a more >> soft radiation. It may exist a set of unknown isomers of He4, He3 ...For >> this isomers there must exist a huge number of lower energy stage and a >> relative small difference in energy between them. > > > Well - that's the rub isn't it? The actual numbers do not work out > very well. > > The fusion reaction of deuterium to helium provides about 24 MeV > gain, and yet anything over about 10 KeV would have been measured by > now; therefore to support a helium fusion hypothesis - we would need > at least 2,400 isomers or intermediate stages of helium, all fairly > evenly spaced. > > Plus, the lifetime of each isomer state, at least in those elements > with known isomers, is long. If helium has thousands of isomers, it > would typically take centuries to decay. > > Thus to prop up the required details for fusion of D to He at low > energy, which is one miracle, one needs another miracle which is > finding isomers in helium, which has no known isomers, then another > miracle to suggest that there are actually ~3000 isomers in relatively > equal steps, and finally another miracle that all the isomers decay > very rapidly. Not to mention the fifth miracle, which is that decay > via nuclear isomers is the exclusive method of energy release, > happening all the time ... with no other channels.
