Quantum field hypothesis is a covering theory that matter is made up of atoms that applies to high-energy processes place particles are generated and destroyed. Properties of a quantity field that represents an elementary particle and a quantity field that mediates interaction 'tween particles are resolved. This analysis relies on fundamental tangible principles. The analytical structure of these fields demonstrates that they are completely various physical objects. A further analysis substantiates that a quantum field that shows an elementary large particle and a quantum field that shows a massless particle have a entirely different analytical structure. The results are used in an test of free spin-1/2 elementary large particles and added free elementary particles that have an necessary spin. Inherent inconsistencies are establish for elementary large particles that have an integral spin and for the Majorana neutrino. The reasoning also demonstrates that interaction intervening fields do not represent a honest particle. In particular, the electroweak theory of the W ± and the Z atoms has no coherent action.
Author(s) Details:
E. Comay,
Charactell
Ltd., PO Box 39019, Tel-Aviv, 61390, Israel.
Please see the link here: https://stm.bookpi.org/CPPSR-V1/article/view/11919
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