Description
Chair: Jason Kumar (UH)
Jonna Koponen
(University of Glasgow)
5/16/12, 1:30 PM
Chair: Jason Kumar (UH)
Abstract:
We present a new and very high statistics study of D and D_s semileptonic decay form factors on the lattice. We work with MILC N_f=2+1 lattices and use the Highly Improved Staggered Action (HISQ) for both the charm and the light valence quarks. We use both scalar and vector currents to determine the form factors f_0(q^2) and f_+(q^2) for a...
Abstract:
We present a new and very high statistics study of D and D_s semileptonic decay form factors on the lattice. We work with MILC N_f=2+1 lattices and use the Highly Improved Staggered Action (HISQ) for both the charm and the light valence quarks. We use both scalar and vector currents to determine the form factors f_0(q^2) and f_+(q^2) for a...
Giulia Casarosa
(SLAC National Accelerator Laboratory/Pisa)
5/16/12, 1:50 PM
Chair: Jason Kumar (UH)
Abstract:
D-Dbar mixing has been well established with the combination of several measurements, but so far there is no single measurement with significance over 5 standard deviations. We report the results of a new measurement of the charm parameters y_{CP} and Delta y. The analysis sensitivity is maximized by using the entire dataset collected...
Abstract:
D-Dbar mixing has been well established with the combination of several measurements, but so far there is no single measurement with significance over 5 standard deviations. We report the results of a new measurement of the charm parameters y_{CP} and Delta y. The analysis sensitivity is maximized by using the entire dataset collected...
Riccardo Cenci
(University of Maryland)
5/16/12, 2:30 PM
Chair: Jason Kumar (UH)
Abstract:
We report on several new measurements of CP-violating decay-rate asymmetries and T-odd correlations in D+ and Ds decays.
Abstract:
We report on several new measurements of CP-violating decay-rate asymmetries and T-odd correlations in D+ and Ds decays.
Chih-hsiang Cheng
(Caltech)
5/16/12, 3:10 PM
Chair: Jason Kumar (UH)
Abstract:
We present the prospects for studying quantum correlated charm decays at the psi(3770) using 1ab^-1 of data at SuperB. The impact of studying the time-dependence of such double tagged decays upon measurements in other charm environments will be discussed.
Abstract:
We present the prospects for studying quantum correlated charm decays at the psi(3770) using 1ab^-1 of data at SuperB. The impact of studying the time-dependence of such double tagged decays upon measurements in other charm environments will be discussed.
