The mass of an electroweakly interacting neutrino consists of the electric and weak parts responsible for the existence of its charge, charge radius, and magnetic moment. Such connections explain the formation of paraneutrinos, for example, at the polarized neutrino electroweak scattering by spinless nuclei. We derive the structural equations that relate the self-components of mass to charge, charge radius, and magnetic moment of each neutrino as a consequence of unification of fermions of a definite flavor. They indicate the availability of neutrino universality and require following its logic in a constancy law dependence of the size implied from the multiplication of a weak mass of neutrino by its electric mass. According to this principle, all Dirac neutrinos of a vector nature, regardless of the difference in their masses, have the same charge, an identical charge radius, as well as an equal magnetic moment. Thereby, the possibility appears of establishing the laboratory limits of weak masses of the investigated types of neutrinos. Finding estimates show clearly that the earlier measured properties of these particles may testify in favor of the unified mass structure of their interaction with any of the corresponding types of gauge fields.
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.
The mass of an electroweakly charged lepton consists of the two components of the electric and weak nature and regardless of the difference in masses, all leptons have an equal charge with his radius as well as an identical magnetic moment. Between these currents there appear the most diverse connections, for example, at their interactions with an electroweak field of spinless nuclei. We derive the united equations which relate the mass and its structural parts to charge, charge radius and magnetic moment of each lepton as a consequence of the ideas of flavor symmetry laws. Thereby, they require the verification of lepton universality from the point of view of a constancy of the size implied from the multiplication of a weak mass of lepton by its all the rest mass. Such a principle gives the possibility to define the lepton weak masses. If this picture is not changed, leptons universally interact not only with photon or weak neutral boson but also with any of gauge fields. 1 It is indisputable that naturally united regularities of the nature of elementary particles establish a flavor independent symmetry between the interactions of all leptons with each of gauge bosons. However, over fifty years ago when the hypothesis of lepton universality [1, 2] was for the first time formulated and now when a large number of works [3, 4] is dedicated to its different aspects [5, 6], the question as to what is the unified theoretical description of this highly astounding symmetry of the micro-world steel has no unequivocal answer. An exact violation of lepton universality [7] is not observed experimentally [8] and remains the impression that nature itself testifies in favor of such a symmetrical structure. Therefore, to elucidate a truly character of the identical interactions of leptons, it is desirable not only to use the difference in their masses as a stimulus to deciding the problem at the new level but also to raise the question as to whether there exists any mass type dependence of lepton universality, and if so what the expected connection says about the mechanism of the discussed universal phenomena.Many authors state that no any rest mass dependence of a particle fundamental interactions and fields. Its existence would seem contradicts our observation that electron, muon and tau lepton which possess the same charge and an equal magnetic moment, have the difference masses.It is interesting, however, that the same charge of a Coulomb nature may not be both an electric and a weak charge. At the same time, each of the existing types of leptons can interact with all gauge bosons.The basis for our approach is that in the framework of classical theory of an extensive electron [9], a particle mass has purely electromagnetic nature. If take this idea, the difference in fermion masses would lead us to the implication that muon and tau lepton possess those interactions which are absent in electron [10]. But a question about their reality thus far remains open.On the other hand, as known, a steadiness of the electric char...
The mass, energy and momentum of the neutrino of a true flavor have an axial-vector nature. As a consequence, the left-handed truly neutral neutrino in an axial-vector field of emission can be converted into a right-handed one and vice versa. This predicts the unidenticality of masses, energies and momenta of neutrinos of the different components. Recognizing such a difference in masses, energies, momenta and accepting that the left-handed axial-vector neutrino and the right-handed antineutrino of true neutrality refer to long-lived C-odd leptons, and the right-handed truly neutral neutrino and the left-handed axial-vector antineutrino are of shortlived fermions of C-oddity, we would write a new CP-even Dirac equation taking into account the flavor symmetrical axial-vector mass, energy and momentum matrices. Their presence explains the spontaneous mirror symmetry violation, confirming that an axial-vector current conservation law has never violated. They reflect the availability of a mirror Minkowski space in which a neutrino is characterized by left as well as by right space-time coordinates. Therefore, it is not surprising that whatever the main purposes experiments about a quasielastic axial-vector mass say in favor of an axial-vector mirror Minkowski space-time.
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