QUANTUM AND GRAVITATIONAL PHYSICS
ISSN
2181-0478; EISSN 2181-0494 Research journal published by CTPA
Volume 4 024-8278, 9 p., 31.08.2023
Time-symmetric quantization of
relativistic fields.
2. Electroweak theory. Observable
effects of TSQ
Abstract
In the method of time-symmetric quantization (TSQ) of
relativistic systems, based on the Stückelberg-Feynman interpretation, the
creation-annihilation operators of quanta of complex fields and massless gauge
fields, are automatically normally ordered, and there is no vacuum energy and
charge (Z. Zakir 2023, article 1). In this second article the application of
TSQ to massive bosonic fields of electroweak theory and the observational
consequences of TSQ are considered. It is shown that the vacuum of these fields
is free of zero-point energy and zero-point charge, and thus a contribution of
these fields to the cosmological constant is absent. A direct observational
consequence of TSQ is crossing symmetry in particle physics. The observable
effects, which were attributed to the zero-point energy of the vacuum, are
actually generated by the fields of real charges, and there is no evidence of
the existence of zero-point energy of fundamental fields. This fact contradicts
the prediction of the standard formulation of quantum field theory, but
indirectly confirms TSQ.
4:024.8278, 9 p., 31.08.2023;
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