JUNO's initial results combined with global data give a 2.2-2.3 sigma preference for normal neutrino mass ordering.
Tomalak,Theory of inverse beta decay for reactor antineutrinos,2512.07956
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Radiative corrections to nucleon g_A total 3.5(2.1)% or 5.6(0.7)%, implying lattice QCD should find g_A around 1.265 or 1.240.
Geant4 simulation finds neutron capture positions statistically enhance IBD neutrino directionality in water Cherenkov detectors from ~10 MeV to hundreds of MeV despite diffusion.
Pion-induced QED radiative corrections in inverse beta decay are small, at or below nucleon form factor uncertainties, enabling sub-permille theoretical precision for charged-current neutrino-nucleon scattering above 10 MeV.
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Lessons from the first JUNO results
JUNO's initial results combined with global data give a 2.2-2.3 sigma preference for normal neutrino mass ordering.
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Radiative corrections to the nucleon isovector $g_V$ and $g_A$
Radiative corrections to nucleon g_A total 3.5(2.1)% or 5.6(0.7)%, implying lattice QCD should find g_A around 1.265 or 1.240.