High Energy Particle Physics

   

Gravity, Anomaly Cancellation, Anomaly Matching, and the Nucleus

Authors: Syed Afsar Abbas

In the Standard Model there has been the well known issue of charge quantization arising from the anomalies and with or without spontaneous symmetry breaking being brought into it. It is well known that in the purely anomalies case, unexpectedly there pops in a so called "bizarre" solution. We discuss this issue and bring in the 't Hooft anomaly matching condition to find a resolution of the above bizarreness conundrum. We find a completely consistent solution with a unique single nucleon-lepton chiral family. We find that at low energies, the nucleus should be understood as made up of fundamental proton and neutron and where quarks play no role whatsoever. In addition it provides a new understanding and consistent solutions of some long standing basic problems in nuclear physics, like the quenching of the Gamow-Teller strength in nuclei and the issue of the same "effective charge" of magnitude 1/2 for both neutron and proton in the nucleus. Fermi kind of four-fermion-point-interaction appears as an exact (non-gauge) result.

Comments: 12 Pages.

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Submission history

[v1] 2017-03-23 08:50:41

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