Pointlike electrons and muons and the nature of neutrinos
arXiv:hep-ph/0401017
Abstract
We show that the form factor of an electron or a muon is unity for the modulus of the momentum transfer away from the Hagedorn temperatures $T^{e}_0\sim m_e$ and $T^μ_0\sim m_μ$ and lower than the hadronic Hagedorn temperature $T^{\tiny{QCD}}_0\sim m_Ï$. The structure of the electron or the muon is resolved for momemtum transfers comparable to $T^{e,μ}_0$. This is seen in scattering experiments performed in the 1950s, 1960s, and early 1970s to test the validity of QED. We interprete center-vortex loops with no self-intersection, occurring in the confining phases of each SU(2) gauge-theory factor, as {\sl Majorana} neutrinos. We offer a possible explanation for a contribution to $Î_{\tiny{cosmo}}$ not generated by the so-far nonconfining, strongly interacting gauge theory SU(2)$_{\tiny{CMB}}$.
5 pages, 2 figures, version2: superfluous text deleted, typos corrected