Measurement of the Positive Muon Lifetime and Determination of the Fermi Constant to Part-per-Million Precision

D.M. Webber , V. Tishchenko , Q.~Peng , S. Battu , R.M. Carey , D.B. Chitwood , J. Crnkovic , P.T. Debevec

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S. Dhamija W. Earle A. Gafarov K. Giovanetti T.P. Gorringe F.E. Gray Z. Hartwig D.W. Hertzog B. Johnson P. Kammel B. Kiburg S. Kizilgul J. Kunkle B. Lauss I. Logashenko K.R. Lynch R. McNabb J.P. Miller F. Mulhauser C.J.G. Onderwater J. Phillips S. Rath B.L. Roberts P. Winter B. Wolfe

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classification ✦ hep-ex nucl-ex

keywords lifetimemuonpreciseconstantexperimentfermimeasurementmulan

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We report a measurement of the positive muon lifetime to a precision of 1.0 parts per million (ppm); it is the most precise particle lifetime ever measured. The experiment used a time-structured, low-energy muon beam and a segmented plastic scintillator array to record more than 2 x 10^{12} decays. Two different stopping target configurations were employed in independent data-taking periods. The combined results give tau_{mu^+}(MuLan) = 2196980.3(2.2) ps, more than 15 times as precise as any previous experiment. The muon lifetime gives the most precise value for the Fermi constant: G_F(MuLan) = 1.1663788 (7) x 10^-5 GeV^-2 (0.6 ppm). It is also used to extract the mu^-p singlet capture rate, which determines the proton's weak induced pseudoscalar coupling g_P.

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Measurement of the Positive Muon Lifetime and Determination of the Fermi Constant to Part-per-Million Precision

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