Well if Kaons are present on the up side we always thought something strange was going on in this process😉.
Although energetically there is enough rest mass in Deuterium to produce a Kaon through some kind of low energy or collective trigger for the nucleons to trigger can it account for the formation of these quarks? If it is not possible this way but on the other hand they are present it would indicate maybe that the right combination of quarks and anti quarks are produced to form all the mesons observed from high energy excitation in one place. This I think is consistent with your SPP analogue black hole Hadron evaporation idea? As an alternative approach to the analogue black hole idea, for a meson to form in a single bound place I suppose that meson combinations could be generated in a nucleus. If a nucleus somehow has enough extra energy to generate a quark neutral over all combination of mesons. I wonder if this also true if a nucleon or nucleon pair is destroyed in the process. As well as an energizing source (perhaps a laser, phonon resonance effect or magnetic stimulation from SPP), I suppose a nucleus of sufficient binding energy would be required. It seems Deuterium it self does not have any where near the binding energy to hold a pion let alone combinations of pions or kaons. So if a single nucleus is required to generate complete mesons this implies heavier nuclei are required at least of sufficient binding energy to hold a meson pair before being released from or quantum tunneling out of the nucleus. If we assume 8MeV binding energy per nucleon then perhaps we need a nucleus of atomic mass of 36 (heavier than Sulphur) to manifest +/- pion pairs for example. For kaon pairs however, much heavier nuclei would be implicated. I'm not sure if these are present in the fuel but I suppose platinum would be heavy enough. So perhaps as I think you have said in the past the UDD is providing a kind of magnetic resonance to other individual nuclei. If these are heavier nuclei perhaps they can be excited to a state where these meson pairs can be manifested. If the accumulation of energy in the nucleus is slow perhaps the mesons would be ejected as soon as the are formed with minimal energy as soon they can tunnel out of the nucleus. I suppose - mesons would form pionic and kaonic atoms and maybe the + pion interact with a neutron to form a proton, otherwise they would decay following the chain mentioned by Holmlid. It might be still difficult to account for Kaons using the above approach if so we are left with: Nucleon or nucleon pair disintegration,(perhaps in ultra dense material) then a trigger needs to be identified. Nucleon annihilation followed by particle generation from the energy released. Axils SSP black hole analogue and Hadron evaporation. High energy nucleon impacts or fusion events. In which case we would expect more radiation if I understand correctly. > On 26 Oct 2015, at 08:03, Axil Axil <[email protected]> wrote: > > K−, negatively charged (containing a strange quark and an up antiquark) has > mass 493.667±0.013 MeV and mean lifetime (1.2384±0.0024)×10−8 s. > K+ (antiparticle of above) positively charged (containing an up quark and a > strange antiquark) must (by CPT invariance) have mass and lifetime equal to > that of K−. > > The mass difference is 0.032±0.090 MeV, consistent with zero. The difference > in lifetime is (0.11±0.09)×10−8 s. What's weird is that two different quarks > types are produced out of nothing. You just don't find strange quarks in > ordinary matter. > > >> On Mon, Oct 26, 2015 at 1:18 AM, Axil Axil <[email protected]> wrote: >> in physical cosmology, baryogenesis is the generic term for the hypothetical >> physical processes that produced an asymmetry(imbalance) between baryons and >> antibaryons produced in the very early universe. The baryonic matter that >> remains today, following the baryonic-antibaryonic matter annihilation, >> makes up the universe. >> >> LENR could be responsible for the past and ongoing production of matter in >> the universe in violation of CPT and that negative matter (antibaryons) is >> being sent back in time. >> >> We see excess electrons pop into existence in LENR reactions. Could LENR be >> the GOD reaction? In point of fact, Holmlid is producing electrons from >> nothing in his experiment. Don't get excited, we are just talking here. >> >>> On Mon, Oct 26, 2015 at 12:53 AM, Axil Axil <[email protected]> wrote: >>> CPT THEOREM C(harge) -P(arity=reflection) -T(ime reversal) INVARIANCE is a >>> property of any quantum field theory in Flat space times which respects: >>> (i) Locality, (ii) Unitarity and (iii) Lorentz Symmetry. >>> >>> Holmlid is producing neutral K mesons. This particle demonstrates CP >>> violation, >>> >>> The discovery of CP violation in 1964 in the decays of neutral kaons >>> resulted in the Nobel Prize in Physics in 1980 for its discoverers James >>> Croninand Val Fitch. >>> >>> https://en.wikipedia.org/wiki/CP_violation >>> >>> Who can say why LENR produces neutral K mesons? >
