Dark Matter and $(g-2)_{e,\mu}$ in ISS(2,3) based Gauged $U(1)_{L_{e}-L{\mu}}$ Symmetric Model
We proposed a model which can explain the neutrino phenomenology, dark matter and anomalous magnetic moment$(g-2)$ in a common framework. The inverted sea saw (ISS)(2,3) mechanism has been incorporated, in which we get an extra sterile state and this state act as a viable dark matter candidate. The...
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| Format | Journal Article |
| Language | English |
| Published |
18.02.2023
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| Online Access | Get full text |
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| Abstract | We proposed a model which can explain the neutrino phenomenology, dark matter
and anomalous magnetic moment$(g-2)$ in a common framework. The inverted sea
saw (ISS)(2,3) mechanism has been incorporated, in which we get an extra
sterile state and this state act as a viable dark matter candidate. The right
handed neutrino mass is obtained in TeV scale, which is accessible at LHC. The
anomaly free $U(1)_{L_{e}-L{\mu}}$ gauge symmetry is introduced to explain the
anomalous magnetic moment of electron and muon because it provides a natural
origin of $(g-2)$ in a very minimal setup. The corresponding MeV scale gauge
boson successfully explain the anomalous magnetic moment of electron and
muon$(g-2)_{e,\mu}$, simultaneously. Thus obtained neutrino phenomenology and
relic abundance of dark matter are compatible with experimental results. |
|---|---|
| AbstractList | We proposed a model which can explain the neutrino phenomenology, dark matter
and anomalous magnetic moment$(g-2)$ in a common framework. The inverted sea
saw (ISS)(2,3) mechanism has been incorporated, in which we get an extra
sterile state and this state act as a viable dark matter candidate. The right
handed neutrino mass is obtained in TeV scale, which is accessible at LHC. The
anomaly free $U(1)_{L_{e}-L{\mu}}$ gauge symmetry is introduced to explain the
anomalous magnetic moment of electron and muon because it provides a natural
origin of $(g-2)$ in a very minimal setup. The corresponding MeV scale gauge
boson successfully explain the anomalous magnetic moment of electron and
muon$(g-2)_{e,\mu}$, simultaneously. Thus obtained neutrino phenomenology and
relic abundance of dark matter are compatible with experimental results. |
| Author | Ankush Verma, Rishu Chauhan, B. C |
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| BackLink | https://doi.org/10.48550/arXiv.2302.09282$$DView paper in arXiv |
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| Snippet | We proposed a model which can explain the neutrino phenomenology, dark matter
and anomalous magnetic moment$(g-2)$ in a common framework. The inverted sea
saw... |
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| SubjectTerms | Physics - High Energy Physics - Phenomenology |
| Title | Dark Matter and $(g-2)_{e,\mu}$ in ISS(2,3) based Gauged $U(1)_{L_{e}-L{\mu}}$ Symmetric Model |
| URI | https://arxiv.org/abs/2302.09282 |
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