I.M. Blair scite author profile

The 56 tonne high resolution liquid scintillation calorimeter KARMEN at the beam stop neutrino source ISIS has been used to search for neutrino oscillations in the disappearance channel νe→ νx . The νe emitted in µ + decay at rest are detected with spectroscopic quality via the exclusive charged current reaction 12 C ( νe , e − ) 12 Ng.s. almost free of background. Analysis of the spectral shape of e − from the νe-induced reaction as well as a measurement of the absolute νe flux allow to investigate oscillations of the type νe→ ντ and νe→ νµ. The flux independent ratio R CC/NC of charged current events 12 C ( νe , e − ) 12 Ng.s. to neutral current events 12 C ( ν , ν ′ ) 12 C * provides additional information in the oscillation channel νe→ νx. All three analysis methods show no evidence for oscillations. For the νe→ ντ channel 90% CL limits of sin 2 (2Θ) < 0.338 for ∆m 2 ≥ 100 eV 2 /c 4 and ∆m 2 < 0.77 eV 2 /c 4 for maximal mixing in a simple 2 flavor oscillation formalism are derived. A complete 3 flavor analysis of the experimental data from five years of measurement with respect to νe↔ ντ and νe↔ νµ mixing is presented.

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Measurement of the weak neutral current excitation at Eνμ=29.8 MeV

Armbruster

Blair

Bodmann

et al. 1998

Physics Letters B

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The Effect of Atomic Binding on the Decay Rate of Negative Muons

et al. 1962

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I.M. Blair

Upper limits for neutrino oscillationsν¯μ→ν¯efrom m

Anomaly in the time distribution of neutrinos from a pulsed beam stop source

New experimental limits on νe→ντ oscillations in 2-ν and 3-ν mixing schemes

Measurement of the weak neutral current excitation at Eνμ=29.8 MeV

The Effect of Atomic Binding on the Decay Rate of Negative Muons

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