9:00 AM–1:30 PM, Wednesday, October 10, 2007
Newport News Marriott at City Center - Pearl Salon I
Chair: David Armstrong, College of William & Mary
Abstract ID: BAPS.2007.DNP.1WA.6
11:35 AM–12:10 PM
Tim Gorringe
(Univ. of Kentucky)
The Fermi constant $G_F$ determines the rates of weak processes that range from nuclear beta-decay to stellar nucleo-synthesis. At Paul Scherrer Institute, the MuLan experiment is seeking to determine the Fermi Constant by measuring the positive muon lifetime to an unprecedented precision of about one part-per-million - a twenty-fold improvement over earlier experimental efforts. The experiment uses an intense, pulsed, muon beam and a finely-segmented, fast-timing, scintillator array to record the decays of more than $10^{12}$ muons. In this talk we report the results for the positive muon lifetime from our 2004 production run, and describe our progress to reaching the final goal of one ppm. The implications - both as a determination of a fundamental constant of the electroweak interaction and for the precision testing of the standard model - are also discussed.
To cite this abstract, use the following reference: http://meetings.aps.org/link/BAPS.2007.DNP.1WA.6