Johannes Maria René Welter scite author profile

Johannes Maria René Welter

3Publications

50Citation Statements Received

183Citation Statements Given

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176

Affiliations

Max Planck Institute for Nuclear Physics

Publications

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Revisiting large neutrino magnetic moments

Lindner

Radovčić

Welter

2017

J. High Energ. Phys.

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Current experimental sensitivity on neutrino magnetic moments is many orders of magnitude above the Standard Model prediction. A potential measurement of nextgeneration experiments would therefore strongly request new physics beyond the Standard Model. However, large neutrino magnetic moments generically tend to induce large corrections to the neutrino masses and lead to fine-tuning. We show that in a model where neutrino masses are proportional to neutrino magnetic moments. We revisit, discuss and propose mechanisms that still provide theoretical consistent explanations for a potential measurement of large neutrino magnetic moments. We find only two viable mechanisms to realize large transition magnetic moments for Majorana neutrinos only.

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The not-so-sterile 4th neutrino: constraints on new gauge interactions from neutrino oscillation experiments

Welter

2014

J. High Energ. Phys.

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Sterile neutrino models with new gauge interactions in the sterile sector are phenomenologically interesting since they can lead to novel effects in neutrino oscillation experiments, in cosmology and in dark matter detectors, possibly even explaining some of the observed anomalies in these experiments. Here, we use data from neutrino oscillation experiments, in particular from MiniBooNE, MINOS and solar neutrino experiments, to constrain such models. We focus in particular on the case where the sterile sector gauge boson A couples also to Standard Model particles (for instance to the baryon number current) and thus induces a large Mikheyev-Smirnov-Wolfenstein potential. For eV-scale sterile neutrinos, we obtain strong constraints especially from MINOS, which restricts the strength of the new interaction to be less than ∼ 10 times that of the Standard Model weak interaction unless active-sterile neutrino mixing is very small (sin 2 θ 24 10 −3 ). This rules out gauge forces large enough to affect short-baseline experiments like MiniBooNE and it imposes nontrivial constraints on signals from sterile neutrino scattering in dark matter experiments.

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phenomenology of neutrino magnetic moments

Welter¹

2018

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