ANOMALOUS MAGNETIC DIPOLE MOMENT OF THE MUON FROM NEW SCALAR EXCHANGE
The anomalous magnetic dipole moment of the muon (from now on called muon g ? 2) is one of the precision measurements sensitive to new physics. Recent measurement, performed by the Muon g?2 Collaboration of Fermilab, differs from the Standard Model (SM) value calculated by the Muon g ? 2 Theory...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/77599 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | The anomalous magnetic dipole moment of the muon (from now on called
muon g ? 2) is one of the precision measurements sensitive to new physics.
Recent measurement, performed by the Muon g?2 Collaboration of Fermilab,
differs from the Standard Model (SM) value calculated by the Muon g ? 2
Theory Initiative Group, at the combined statistical significance of 5.1?. Taking at face value, such discrepancy is caused by new physics. In this study,
we seek explanations from new physics involving new scalar fields. The gauge
symmetry and the particle content of the Standard Model remain unchanged.
We explore all possible bilinear combinations of fermions involving muon in
order to acquire Yukawa terms. From this analysis, several new scalars that
are Lorentz and gauge invariant are part of well-established models. We chose the Zee-Babu model, the two-Higgs-Doublet model, and scalar Leptoquark
models for our study. One-loop Feynman diagrams involving scalar fields are
calculated to get the correction of g. Out of these models, we constrain our
search for models in which g ? 2 > 0 can be acquired. We then proceed to list
and study possible phenomenological implications from models which could
explain muon g ? 2. These phenomenological consequences further constrain
the condition needed to explain muon g ? 2.
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