High-precision COHERENT germanium CEνNS data yields state-of-the-art constraints on the weak mixing angle, neutrino charge radii, germanium neutron radius, and non-standard neutrino interactions via global analysis with prior COHERENT and reactor measurements.
Probing conventional and new physics at the ESS with coherent elastic neutrino-nucleus scattering
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A chiral flavor-specific U(1)_X model with two Higgs doublets accommodates the ATOMKI 17 MeV anomaly via a Z' boson whose parameter space remains consistent with atomic parity violation, beam dump, meson decay, and neutrino scattering bounds.
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Phenomenological implications of the high-precision COHERENT germanium CE$\nu$NS data
High-precision COHERENT germanium CEνNS data yields state-of-the-art constraints on the weak mixing angle, neutrino charge radii, germanium neutron radius, and non-standard neutrino interactions via global analysis with prior COHERENT and reactor measurements.
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A Flavor Specific Chiral $U(1)_X$ Framework for Explaining the ATOMKI Anomaly
A chiral flavor-specific U(1)_X model with two Higgs doublets accommodates the ATOMKI 17 MeV anomaly via a Z' boson whose parameter space remains consistent with atomic parity violation, beam dump, meson decay, and neutrino scattering bounds.