An Unbroken AxialVector Current Conservation Law
Abstract
The mass, energy and momentum of the neutrino of a true flavor have an axialvector nature. As a consequence, the lefthanded truly neutral neutrino in an axialvector field of emission can be converted into a righthanded 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 lefthanded axialvector neutrino and the righthanded antineutrino of true neutrality refer to longlived Codd leptons, and the righthanded truly neutral neutrino and the lefthanded axialvector antineutrino are of shortlived fermions of Coddity, we would write a new CPeven Dirac equation taking into account the flavor symmetrical axialvector mass, energy and momentum matrices. Their presence explains the spontaneous mirror symmetry violation, confirming that an axialvector 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 spacetime coordinates. Therefore, it is not surprising that whatever the main purposes experiments about a quasielastic axialvector mass say in favor of an axialvector mirror Minkowski spacetime.
 Publication:

International Journal of Theoretical Physics
 Pub Date:
 April 2016
 DOI:
 10.1007/s1077301528523
 arXiv:
 arXiv:1506.01040
 Bibcode:
 2016IJTP...55.2139S
 Keywords:

 True flavor;
 A new CPeven Dirac equation;
 Axialvector mass;
 energy and momentum matrices;
 An axialvector current conservation law;
 Left and right Minkowski spaces;
 An axialvector mirror Minkowski spacetime;
 Physics  General Physics
 EPrint:
 9 pages, LaTex, Published version in IJTP