The United Families of Massive Neutrinos of a Different Nature

Rasulkhozha S. Sharafiddinov

Published 2004-07-22, updated 2010-09-24Version 4

At the availability of a nonzero mass, the same neutrino regardless of whether it refers to Dirac or Majorana fermions, must possess simultaneously each of the anapole and electric dipole moments. Their interaction with the field of emission can also lead to the elastic scattering of the longitudinal polarized neutrinos on a spinless nucleus. Using the cross section of a process, the united equation has been obtained between the anapole and electric dipole form factors of Dirac and Majorana neutrinos. It corresponds in nature to the coexistence of neutrinos of both types. As a consequence, each Dirac neutrino testifies in favor of the existence of a kind of Majorana neutrino. They constitute herewith the united families of massive neutrinos of a different nature. Therefore, any of the earlier measured properties of neutrinos may serve as a certain indication of the existence simultaneously of both Dirac and Majorana neutrinos. All findings are also confirmed by the comparatively new laboratory restrictions on the self-masses of these fermions. Thereby they state that electromagnetic gauge invariance must have a new structure, which depends on nature of the inertial mass and says that P-symmetry of a particle is basically violated at the expense of its rest mass.