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Neutrino phenomenology via Type-(I+II) seesaw in the $U(1)_{L_e-L_\mu}$ model
by Priya Mishra, Mitesh Kumar Behera, Papia Panda, Shivaramakrishna Singirala, Rukmani Mohanta
Submission summary
| Authors (as registered SciPost users): | Priya Mishra |
| Submission information | |
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| Preprint Link: | scipost_202111_00044v1 (pdf) |
| Date submitted: | 2021-11-23 06:59 |
| Submitted by: | Mishra, Priya |
| Submitted to: | SciPost Physics Proceedings |
| Proceedings issue: | 16th International Workshop on Tau Lepton Physics (TAU2021) |
| Ontological classification | |
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| Academic field: | Physics |
| Specialties: |
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| Approach: | Phenomenological |
Abstract
We show how, $L_e-L_\mu$ gauged symmetry is used as the Standard Model (SM) extension with the type (I+II) seesaw mechanism for neutrino mass generation. The particle content of this model involves three extra right handed neutrinos, one scalar triplet and one singlet with the SM spectrum. We discuss about lepton flavour violating decays $\mu \rightarrow e\gamma$ , $\tau \to \mu \bar \mu\mu$ and anomalous magnetic moment of muon.
Current status:
Reports on this Submission
Report
Le-Lmu gauges symmetry is considered with type I+II seasaw mechanism for neutrino mass generation to study lepton flavor violating muon and tau decays, along with the anomalous magnetic moment of the muon.
Requested changes
Please reprocess latex file to display the references correctly.
model through Gauge sector (), fermion sector, and scalar sector-> model through gauge, fermion and scalar sectors
and the Lagrangian is ["is" is missing before eqn 1]
Recommendation
Publish (surpasses expectations and criteria for this Journal; among top 10%)
Report
Le-Lmu gauges symmetry is considered with type I+II seasaw mechanism for neutrino mass generation to study lepton flavor violating muon and tau decays, along with the anomalous magnetic moment of the muon.
Requested changes
Please reprocess latex file to display the references correctly.
model through Gauge sector (), fermion sector, and scalar sector-> model through gauge, fermion and scalar sectors
and the Lagrangian is ["is" is missing before eqn 1]
Recommendation
Publish (surpasses expectations and criteria for this Journal; among top 10%)