Authors: Sylwester Kornowski
Here, within the Scale-Symmetric Theory (SST), we showed that the Z and W bosons can be created due to three different mechanisms. One mechanism is associated with a transition from electromagnetic interactions to weak interactions of protons with electrons in the presence of dark matter (DM) while the second one concerns a transition from weak interactions of protons to weak interactions of charges of protons, which mimic behaviour of electrons in absence of DM, with muons associated with protons. In the first mechanism, calculated mass of Z is 91.181 GeV whereas of W is 80.427 GeV while in the second mechanism we obtained respectively 91.205 GeV and 80.385 GeV. The third mechanism leads to masses of W bosons equal to 80.473 GeV and 80.380 GeV (mean value is 80.427 GeV). We showed that the recent cosmic-ray antiproton data from AMS-02 concern transitions between different interactions also so the results do not follow from dark-matter annihilation. Emphasize that in an earlier paper, we calculated lifetimes of the Z and W bosons which are very close to experimental data.
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