For those who are too impatient to spend time on the knitty gritty of physics follows an incredible explanation for the exchange of weak dark matter between atoms and electrons. Weak dark matter is a mediating medium of pseudo vector e-neutrinos independent of electromagnetic photons but mediating between electric charged matter such as atoms or electrons.

The fun begins some hundred years ago that we could distinguish between atoms and electrons, not only the properties of their electric charges but also the rest masses of these were known accurately. Namely the rest mass of the proton in the hydrogen is 1836.153 m_{e }with rest mass of the electron m_{e} as the unit mass, where the assumption of the unit rest mass is recently made and belongs to the pseudo vector neutrino theory. All rest masses of the particles have to be related to the electron mass for this theory.

For the mediating weak dark matter the atoms and electrons are resonance c-cavities only adapted to the light velocity of c. In the c-cavity internally the virtual photons are enclosed to generate the electric charge, a zero contraction point related to c and therefore determining a zero time moment for the resonance cavity. Keeping this in mind we have not to bother how the internal photon exchange happens and concentrate on the actual weak exchange between c-cavity of atom or electron for the pseudo vector e-neutrinos which are in a state of zero energy as perpetual mobile because the medium is restless. No zero velocity for a pseudo vector cell is possible. Only clusters or string groups know a very short time of zero velocity moments.

Now at least for the H-atom, proton and electron the resonance cavity is integer based. So electron: 1 /144 m_{e} and 1 /137.036 m_{e} the fine structure constant for the weak mediation giving a ratio of 144 /137.036 = 1.050818 which is the relativistic ratio of m/m_{o} for the mediating cluster of 0.3072167c.

For the proton is valid 1836.153 /1728 = 1.062588 for m/m_{o} giving a cluster velocity of 0.3381324c. Where 1728 is internal conserved quark cavity valid for almost all barons except some of the mesons. However 1836.153 /1836 is also a ratio for the c-cavity giving a fraction of rest mass energy of 0.153m_{e} .

The whole point is to find out if the ratios 1.050818 and 1.062588 are zero energy states of the weak medium one bound to the electron and the other to the proton. So one has to unravel the zero state of this weak exchange around the c-cavities. The statement for the zero rest state of random organized pseudo vector e-neutrinos is a constant or a ratio with respect to the rest mass of the electron. Finding this ratio is knitty gritty knowledge and so why bother and just state that N_{e} is the number of 3.813364 10^{5} pseudo cells defined as a pair of e-neutrinos having a rest energy of 1.34 eV opposing each other and an effective velocity of ½c or half the light velocity. For fundamental theoretical reasons the mediating medium can only reach a maximum of ½√2c in exchange to a c-cavity of resonance and therefore the average speed of ½c effective is the random zero energy far away from any c-cavity.

We see that the cluster velocities of 0.30727c and 0.33813c are below ½c effective and are now able the find at how many pairs a cluster of some velocity can consist.

Electron doublets: 0.050818 N_{e} of 0.30727c Proton triplets: 0.062588 N_{e} 0.33813c Proton doublets: 0.153 N_{e} 0.30727c

With m/m_{o} = 1.154700 for 0.5c effective and 1 m_{e} = 5.11 10^{6} eV 1.154700 /1.050818 = 1.098858 cluster energy of 1.2195 eV for doublets. 1.154700 /1.062588 = 1.086686 1.34 /1.086686 = 1.2331 eV for triplets. The energy of the clusters are below 1.34 eV due to the bonding exchange to the c-cavities. Note the triplets are expressed as doublets but to be converted into triplets but it is not relevant for the explanation here.

What comes out of the calculations of the proof for the indestructible zero pseudo ‘vacuum’ is that the electron due to its internal up/down symmetry generates simultaneous pairs of doublets of pseudo vector cells that are expelled with ½√2c and decay around the Compton length of (10^{-12} /c) sec into two individual cells of 1.34 eV, the zero state. This cycle of resonance goes on and on. Two cell of ½ c effective ½c compromise a normalized c-state.

Compare the different ratios for the doublets and triplets: 0.153 /0.050818 = 3.010744 doublets and 0.153 /0. 062588 = 2.4456 triplets both expressed in 1.34 eV. With √2.4456 = 1.56381 or 1.56381 x 2 for angular momentum conservation and compared to the ratio of 3.01 giving a deviation of 4%. Then about half of the overall cluster of 0.153 is converted in steady state of triplets and vice versa, a perpetual cycle. What is missing is the statement that triplet clusters are far more stable than the doublets. A further supposition is that only doublets contribute to the formation of electric charge for a particle, proton or atom.

To prove the decay of the clusters of triplet pseudo e-neutrinos one has to look at the neutron. The neutron has random decay of clusters due to random cluster velocities in the decay product to the formation of the electron reflected from the massive proton. Consequently which is the spin off for these calculations one can show the µ-neutrino as c-cavity is composed of pseudo e-neutrino triplets as cluster decaying about 6.72 times slower than the e-neutrino clusters decays for the neutron, 11.3 minutes decay. The τ-neutrino as a c-cavity, moving with the light velocity is also composed of clusters of pseudo e-triplets generating two alternating clusters internally without decay and therefore perpetual stable. Again the τ-neutrino has an internal reference frame maintaining the resonance internally only to be destroyed in collision with matter, planetary or solar densities.

The definition of a cluster at one velocity is the random distribution of the individual doublets or triplets around the c-cavity. These cannot strictly alined or localized as bunches, etc.

*Magnificient in A4 format *

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