Capture rate and neutron helicity asymmetry for ordinary muon capture on hydrogen
Abstract
Applying heavy-baryon chiral perturbation theory to ordinary muon capture (OMC) on a proton, we calculate the capture rate and neutron helicity asymmetry up to next-to-next-to-leading order. For the singlet hyperfine state, we obtain the capture rate Gamma0 = 695 sec-1 while, for the triplet hyperfine state, we obtain the capture rate Gamma1 = 11.9 sec-1 and the neutron asymmetry alpha1 = 0.93. If the existing formalism is used to relate these atomic capture rates to Gammaliq, the OMC rate in liquid hydrogen, then Gammaliq corresponding to our improved values of Gamma0 and Gamma1 is found to be significantly larger than the experimental value, primarily due to the updated larger value of gA. We argue that this apparent difficulity may be correlated to the specious anomaly recently reported for mu- + p to n + numu + gamma, and we suggest a possibility to remove these two "problems" simply and simultaneously by reexamining the molecular physics input that underlies the conventional analysis of Gammaliq.
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