3-flavor and 4-flavor implications of the latest T2K and NOνA electron (anti-)neutrino appearance results

The two long-baseline experiments T2K and NOνANOνA have recently presented new findings. T2K has shown the first ν¯e appearance data while NOνANOνA has released the first νeνe appearance results. These data are of particular importance because they allow us to probe for the first time in a direct (or manifest) way the leptonic CP-violation. In fact, it is the first time that a hint of CP-violation arises from the comparison of the observations of neutrinos and antineutrinos. We consider the implications of such new results both for the standard 3-flavor framework and for the non-standard 3+13+1 scheme involving one sterile neutrino species. The 3-flavor analysis shows a consolidation of the previous trends, namely a slight preference for sin⁡δ<0sin⁡δ<0, disfavoring CP conservation (δ=0,πδ=0,π) with a statistical significance close to 90%90% C.L., and a mild preference (at more than 68% C.L.) for the normal hierarchy. In a 3+13+1 framework, the data constrain two CP-phases (δ13≡δδ13≡δ and δ14δ14), which exhibit a slight preference for the common value δ13≃δ14≃−π/2δ13≃δ14≃−π/2. Interestingly, in the enlarged four neutrino scheme the preference for the normal hierarchy found within the 3-flavor framework completely disappears. This indicates that light sterile neutrinos may constitute a potential source of fragility in the capability of the two LBL experiments of discriminating the neutrino mass hierarchy.