Production and Decay of Charmed Mesons in the Upsilon Energy Region

Abstract

We study the properties of charmed, nonstrange, D mesons produced in continuum e+e- annihilations. The e+e- collisions were generated in the energy region of the (3S) and (4S) resonances by the Cornell Electron Storage Ring, and were analyzed by the CLEO detector. We make extensive study of the decay topology D0, D+ → K_0X, where the K_0 is observed in the final state K0S → π+π-. The decay D+ → K- π+π- is also considered. We analyze the hadronization process through which charmed quarks become charmed hadrons. We measure the probability that a charmed meson will be produced in a state of non zero angular momentum. A comparison of the D0 and D+ fragmentation distributions is made to different fragmentation models, and to other charmed hadrons. A measurement of the relative production of several D+ decay modes is made, and the total D0 and D+ cross sections are estimated. Techniques are presented for the analysis of satellite mass peaks and D+ D+s reflections. We search for nonspectator effects in the weak decays of charmed mesons, and for evidence of hadronic final state interactions in D0 decay.