Light Sterile Neutrino Effects at theta13-Sensitive Reactor Neutrino Experiments

Abstract

We study the impact of very light sterile neutrinos (Delta m2new around 1 to 10 times 10(-2) eV2, sin2 2thetanew<10(-1)) on upcoming theta13-driven reactor antineutrino experiments like Double-CHOOZ and Daya Bay. Oscillations driven by these vales of Delta m2new affect data in the near and far detectors differently and hence potentially modify the capability of these experimental setups to constrain and measure sin2 2theta13. We find that the hypothesis thetanew different from zero negatively impacts one's ability to either place an upper bound on sin2 2theta13 in the advent of no oscillation signal or measure sin2 2theta13 if a theta13-driven signal is observed. The impact of sterile neutrino effects, however, depends significantly on one's ability to measure the recoil positron energy spectrum. If sin2 2thetanew is larger than 10(-2), upcoming theta13-driven reactor antineutrino experiments should be able to measure sin2 2thetanew and Delta m2new, along with sin2 2theta13, as long as one is sensitive to distortions in the recoil positron energy spectrum in the near (and far) detectors.