Citas bibligráficas
Suárez, D., (2023). Generación de masa de neutrinos en supersimetría con ruptura de paridad R para su aplicación en partículas con largo tiempo de vida [Tesis, Universidad Nacional de Ingeniería]. http://hdl.handle.net/20.500.14076/26883
Suárez, D., Generación de masa de neutrinos en supersimetría con ruptura de paridad R para su aplicación en partículas con largo tiempo de vida [Tesis]. PE: Universidad Nacional de Ingeniería; 2023. http://hdl.handle.net/20.500.14076/26883
@misc{renati/712800,
title = "Generación de masa de neutrinos en supersimetría con ruptura de paridad R para su aplicación en partículas con largo tiempo de vida",
author = "Suárez Valencia, Diego Alonso",
publisher = "Universidad Nacional de Ingeniería",
year = "2023"
}
The Standard Model of particle physics fails to explain certain phenomena that have been discovered in the last part of the past century. Some of these are the hierarchy problem (the mass of the Higgs boson is highly sensitive to quantum corrections); the predominance of matter over antimatter; the existence of dark matter; the mass of neutrinos; among others. Some of these problems can be potentially solved with an extension of the Standard Model known as Supersymmetry. This variant imposes an extra symmetry to the Lagrangian: the physical laws remain unchanged if bosons are exchanged for fermions and vice versa. The most important immediate consequence of implementing this extension is the prediction of new particles, with different spin, associated with each of the already established ones. In this work, we will review a supersymmetric model known as the Minimal Supersym- metric Standard Model with R-Parity Violation (RPV MSSM), calculating the mass matrices generated for the particles present in this context. It will be shown that the neutrinos mix with the higgsinos and with the gauginos known as bino and wino, to form mass eigenstates known as neutralinos. In this analysis, the search for regions in the supersymmetric parameter space that allow the generation of neutrino masses compatible with currently available experimental data is of fundamental importance. Additionally, these allowed regions show us the most probable type of neutralino mixtu-res in the interaction basis. Along with the analysis of the aforementioned parameter space, a general overview of the supersymmetric model with R-Parity Violation in the context of long-lived particles (LLP) will be provided.
Este ítem está sujeto a una licencia Creative Commons Licencia Creative Commons