KARMEN: Present Neutrino-Oscillation Limits and Perspectives after the Upgrade

Abstract

The neutrino experiment KARMEN is situated at the beam stop neutrino source ISIS. It provides numu's, nue's and numubar's in equal intensities from the pi+ mu+ decay at rest. The oscillation channels numu->nue and numubar->nuebar are investigated with a 56t liquid scintillation calorimeter at a mean distance of 17.6m from the nu source. No evidence for oscillations could be found with KARMEN, resulting in 90% CL exclusion limits of sin(2th) < 8.5 10-3 (numubar->nuebar) and sin(2th) < 4.0 10-2 (numu->nue) for Delta m2 > 100eV2. In 1996, the KARMEN neutrino experiment has been upgraded by an additional veto system. Vetoing of cosmic muons passing the 7000t massive iron shielding of the detector suppresses energetic neutrons from deep inelastic scattering of muons as well as from mu-capture in iron. Up to 1996, these neutrons penetrating into the detector represented the main background for the numubar->nuebar oscillation search. With an expected reduction of the background rate by a factor of 40 the experimental sensitivity for numubar->nuebar will be significantly enhanced towards sin(2th) = 10-3 for large Delta m2.

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