Journal
PHYSICAL REVIEW D
Volume 104, Issue 5, Pages -Publisher
AMER PHYSICAL SOC
DOI: 10.1103/PhysRevD.104.055028
Keywords
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Funding
- Fermilab via the Rajendran Raja Fellowship
- XII Plan Neutrino Project of the Department of Atomic Energy
- High Performance Cluster Facility at HRI
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This study shows that by adding a second Higgs doublet to the Standard Model and combining it with a singlet scalar in the dark sector, anomalies in LSND and MB can be explained while maintaining compatibility with the null result from KARMEN, providing a portal to the dark sector and accounting for the observed muon g - 2 value. The use of three singlet neutrinos allows for an understanding of observed neutrino mass-squared differences via a Type I seesaw, with good fits obtained to energy and angular distributions in both experiments.
We show that one of the simplest extensions of the Standard Model, the addition of a second Higgs doublet, when combined with a dark sector singlet scalar, allows us to i) explain the long-standing anomalies in the Liquid Scintillator Neutrino Detector (LSND) and MiniBooNE (MB) while maintaining compatibility with the null result from KARMEN, ii) obtain, in the process, a portal to the dark sector, and iii) comfortably account for the observed value of the muon g - 2. Three singlet neutrinos allow for an understanding of observed neutrino mass-squared differences via a Type I seesaw, with two of the lighter states participating in the interaction in both LSND and MB. We obtain very good fits to energy and angular distributions in both experiments. We explain features of the solution presented here and discuss the constraints that our model must satisfy. We also mention prospects for future tests of its particle content.
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