Improved eV-scale Sterile-Neutrino Constraints from the Second KATRIN Measurement Campaign

Abstract

We present the results of the light sterile neutrino search from the second KATRIN measurement campaign in 2019. Approaching nominal activity, 3.76 × 106 tritium β-electrons are analyzed in an energy window extending down to 40\,eV below the tritium endpoint at E0 = 18.57\,keV. We consider the 3+1 framework with three active and one sterile neutrino flavor. The analysis is sensitive to a fourth mass eigenstate m421600\,eV2 and active-to-sterile mixing |Ue4|2 6 × 10-3. As no sterile-neutrino signal was observed, we provide improved exclusion contours on m42 and |Ue4|2 at 95\,% C.L. Our results supersede the limits from the Mainz and Troitsk experiments. Furthermore, we are able to exclude the large m412 solutions of the reactor antineutrino and gallium anomalies to a great extent. The latter has recently been reaffirmed by the BEST collaboration and could be explained by a sterile neutrino with large mixing. While the remaining solutions at small m412 are mostly excluded by short-baseline reactor experiments, KATRIN is the only ongoing laboratory experiment to be sensitive to relevant solutions at large m412 through a robust spectral shape analysis.