Author(s)

Leandro Meléndez Lugo^*, Esteban Chávez Alarcón

Instituto Nacional de Investigaciones Nucleares, Centro Nuclear de México, Departamento de Física, La Marquesa Ocoyoacac, Estado de México, México.

The existence of the neutron, originally postulated to justify the stability of the nucleus, is very similar to the postulation of Dark Matter to give stability to galaxies and galaxy clusters. However, the existence of the neutron has been proven as an important part of the nucleus that is linked within its integral structure in the Standard Model of Particle Physics. The Standard Model that began with the electron and the proton, currently, with more than one hundred particles, shows in some parts, cracks that induce to reconsider the veracity of the theories and models. Here it is established that all theories are to some extent false and therefore, so will any model, which is always a specific part of the theory. Also, like several other things, by means of a mathematical calculation, it is clarified why, it has not been possible to incorporate the Dark Matter within the Standard Model. Furthermore, it is reliably demonstrated that the introduction of the Dark matter postulate is superfluous and that the high speeds of stellar rotation determined experimentally are analytically explained with the stellar dynamics described here.

Neutron, Standard Model, Dark Matter, Rotational Speed, Stellar Dynamics

Lugo, L. and Alarcón, E. (2022) The Neutron and Dark Matter in the Standard Model of Particle Physics. Journal of High Energy Physics, Gravitation and Cosmology, 8, 402-416. doi: 10.4236/jhepgc.2022.82031.