Determining the CKM Parameter Vcd from nuN Charm Production
Abstract
The formalism for extracting the CKM parameter Vcd from N production of charm is discussed in some detail. The various model assumptions needed are clearly pointed out. A direct determination from neutrino induced dimuon production requires N charm production data, % N charm hadronization data, and the semi-muonic branching ratios for charmed hadrons. Hadronization data from FNAL E531 is re-analyzed to take advantage of better-determined properties of the charmed hadrons. A small bias in the original published result is removed. Neutrino induced charm fragmentation is compared to e+e- charm fragmentation functions; the data are consistent with a common hadronization scheme. An updated value of the mean semi-muonic branching ratio for charmed hadrons produced in N scattering for E >30 GeV is obtained. This value is used to determine % Vcd and its associated uncertainties. Prospects for improving the % Vcd measurement to test the unitarity limit of the CKM matrix are described.
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