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HK: Fachverband Physik der Hadronen und Kerne

HK 3: Fundamentale Wechselwirkungen

HK 3.7: Talk

Monday, March 10, 2008, 15:45–16:00, 2B

Experiment PERKEO III and weak magnetism form factor in polarized neutron decay — •Bastian Märkisch¹, Hartmut Abele¹, Dirk Dubbers¹, Felix Friedl¹, Alexander Kaplan¹, Alexandre Petoukhov², Marc Schumann³, Torsten Soldner², and Daniel Wilkin¹ — ¹Universität Heidelberg — ²Institut Laue-Langevin, Grenoble, Frankreich — ³Rice University, Houston, USA

The decay of free neutrons offers unique insight into the weak interaction at low energies and allows high precision tests of the Standard Model. In the past two years we have measured improved values for the beta-asymmetry A and the neutrino-asymmetry B, and, for the first time, have measured the proton-asymmetry C in neutron decay. The new spectrometer Perkeo III now offers increased statistics by two orders of magnitude compared to its predecessor Perkeo II. With this precision it is now possible to directly measure the underlying structure of the weak interaction of semileptonic decays.

In a first run 2007 at the Institute Laue-Langevin we aimed to measure the weak magnetism prediction of electroweak theory, which results in an energy dependent correction on the beta asymmetry A coefficient. Weak magnetism mirrors the fact that in the Standard Model the electric and weak currents are united in one isotriplet. Therefore weak magnetism is a strong pillar of electroweak unification and weak magnetism form factor is directly related to the difference of the magnetic moments of the proton µ_p and the neutron µ_n.

This work was funded by the German Federal Ministry for Research and Education under Contract No. 06HD187 and 06HD153I.