An incoming and focused compression wave comes and compresses the H(D) into polyhedral shape, when the compressive achieves around 10eV per atom, Akito's mechanism kicks in. It shrinks the polyhedra until compton wavelength. Less than that and the relativistic effects become dominant. Then, there are several possible paths: for D, given its stronger and far reaching strong force, it makes the set shrinks. The collision is unlike what happens in nature, that is, many particles convering into a nuclear fusion, that means that extremely high multipole moments can be achieved, that is, the nucleus is extremely deformed, which will create states with very small separations. Thus, we have EUV to low-Ray emission, which is absorbed within nanometers. Also, for H, the formation may be more complicated, it becomes like a mini tokamak, with a very collimated EM field which may suck into it a bigger nucleus, like that one of Ni. Again, we have the sort of mechanism which subdivides the emission from gamma to much shorter wavelengths.
I set one mechanism for H and D, but both may happen, depending on the pecularities of the dynamics which I have yet to calculate, I hope. 2014-03-28 21:56 GMT-03:00 Axil Axil <[email protected]>: > Ok, explain how these theories produce the results observed in this > system, I don't see how. but I am open to a change of mind. > > > On Fri, Mar 28, 2014 at 8:50 PM, Daniel Rocha <[email protected]>wrote: > >> I just pointed out to you Akito Takashi (including those we did together) >> and Andrew Meulemberg's papers. >> >> >> 2014-03-28 21:43 GMT-03:00 Axil Axil <[email protected]>: >> >> Remember Jones Beene said: >>> >>> "Neutron decay is exothermic, but the stripping reaction itself - where >>> the neutron is separated from deuterium involves kinetic energy depletion - >>> *so >>> yes, the net reaction is not necessarily gainful unless the kinetic energy >>> of the deuteron is supplied in a gainful way, or unless the bond energy is >>> depleted - such as in the nanocavity using a mechanism related to Casimir - >>> cavity QM or spin coupling."* >>> >>> >>> >> -- >> Daniel Rocha - RJ >> [email protected] >> > > -- Daniel Rocha - RJ [email protected]
