The aim of this thesis is to investigate the impact of a particular Randall-Sundrum Model, in which electroweak precision observables are protected from large corrections, on flavor observables in the K and B meson systems.
After an introduction of the model and of its flavor structure, the effects caused by the additional Kaluza-Klein states on particle-antiparticle oscillations and on rare meson decays are derived in a general framework and subsequently analyzed numerically. In this context, correlations between different observables are highlighted and used to distinguish the model under consideration from other models of new physics.
«The aim of this thesis is to investigate the impact of a particular Randall-Sundrum Model, in which electroweak precision observables are protected from large corrections, on flavor observables in the K and B meson systems.
After an introduction of the model and of its flavor structure, the effects caused by the additional Kaluza-Klein states on particle-antiparticle oscillations and on rare meson decays are derived in a general framework and subsequently analyzed numerically. In this context,...
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