The neutron decays as we all know….to 2/3 of a proton and a “W-“ which in, turn quickly changes to an electron, a full proton and a anti neutrino—Standard Theory--think. It’s the “W-“ that only exists virtually for 10e-27 seconds! That’s enough time to allow it to get away from the proton in the mean time takes up a virtual 1/3 + quark to become a full proton.
I would note that this model does not include any possible outside influence by multiple real particles in a coherent system. IMHO electro-magnetic resonances are needed to accept an electron by a proton—the opposite of the decay reaction suggested by the Standard Model. It’s the extra positron of the proton that wants to combine with the nearby electron. In coherent systems the tendency of a system to become more stable with respect to binding energy per nucleon drives the production of a neutron given the necessary resonant conditions (including proper electron and positron polarizations. The magnetic B field is probably important in achieving proper alignment to accomplish conservation of angular momentum of the interacting particles of the coherent system. (I consider high energy electron scattering experiments support this idea The partial, in-elastic nature of these experiments is a key observation. Bob Cook. From: Jones Beene Sent: Friday, December 9, 2016 7:22 AM To: [email protected] Subject: Re: [Vo]:Is hydrinos dark matter? The hydrino is net neutral like the neutron, but unlike the neutron it has a strong negatively charged near-field due to the electron in the OS. Electrons don't feel the strong force, only the electromagnetic / electrostatic force thus they do not approach the nucleus closely enough to facilitate fusion. Although Mills pretends to reject QM, without it (in the form of diamagnetism) one could argue that the hydrino would readily enter the nucleus. On Friday, December 9, 2016 12:56 AM, Axil Axil <[email protected]> wrote: The hydrino cannot be smaller than the neutron. Being neutral, it must behave like the neutron. We should see hydrino damage on the structure of the SunCell and maybe even activation as hydrino kinetic energy is converted to gamma by impact with reactor structure. We might also expect to see nuclear reactions produced by hydrinos and associated transmutation as the hydrino enters nuclei. Dark matter does not do that sort of thing. What keeps hydrinos from acting like neutrons?
