Axion-Like Particles in Composite Higgs Models
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Publicerad
Författare
Typ
Examensarbete för masterexamen
Master's Thesis
Master's Thesis
Program
Modellbyggare
Tidskriftstitel
ISSN
Volymtitel
Utgivare
Sammanfattning
This thesis investigates an extension of the Standard Model that includes an axion-like particle
(ALP). The Lagrangian characterizing interactions between this ALP and Standard Model particles
is presented and the decay channels into gluons, photons and fermion pairs are studied.
This includes the possibility of flavor-violating ALP-quark interactions, yielding decay widths
comparable to those of rare loop processes in the Standard Model.
Relations between the photonic, gluonic and flavor universal fermionic ALP couplings are found
analytically. Under the assumption that the local diphoton and ditau excesses reported by experiments
at the LHC are the result of production via an ALP of mass 95 GeV, the associated
coupling constants can be estimated. This indicates how future analyses could proceed if the
excesses are confirmed. The fermionic and photonic couplings are constrained by a fixed ratio,
and upper and lower bounds are obtained for both in the limits where the ALP interacts
weakly and strongly with the gluons, respectively. The resulting total decay width of the ALP
is bounded from below, showing that the ALP must be short-lived.
Using the numerical tools FeynRules and MadGraph5, together with the above-mentioned relations
between couplings, the expected cross sections for dimuon production via an ALP are
computed. While the cross section for this process is suppressed by the muon mass compared to
the dominant Standard Model background processes, it is bounded from below. This establishes
the minimum expected cross section scale for future dimuon searches at 95 GeV.
Beskrivning
Ämne/nyckelord
Beyond Standard Model, axion, ALP, composite Higgs models, flavor-violating interactions, 95 GeV excess, MadGraph, FeynRules
