Motivated by a recent paper that compares the results of the analysis of the CKM angle alpha in the frequentist and in the Bayesian approaches, we have reconsidered the information on the hadronic amplitudes, which helps in constraining the value of alpha in the standard model. We find that the Bayesian method gives consistent results irrespective of the parametrization of the hadronic amplitudes and that the results of the frequentist and Bayesian approaches are equivalent when comparing meaningful probability ranges or confidence levels. We also find that from B ->pi pi decays alone the 95% probability region for alpha is the interval [80 degrees, 170 degrees], well consistent with recent analyses of the unitarity triangle where, by using all the available experimental and theoretical information, one gets alpha=(93 +/- 4)degrees. Last but not least, by using simple arguments on the hadronic matrix elements, we show that the unphysical region alpha similar to 0, present in several experimental analyses, can be eliminated.
Bona, M., Ciuchini, M., Franco, E., Lubicz, V., Martinelli, G., Parodi, F., et al. (2007). Improved determination of the CKM angle alpha from B -> pi pi decays. PHYSICAL REVIEW D, PARTICLES, FIELDS, GRAVITATION, AND COSMOLOGY, 76(1) [10.1103/PhysRevD.76.014015].
Improved determination of the CKM angle alpha from B -> pi pi decays
LUBICZ, Vittorio;
2007-01-01
Abstract
Motivated by a recent paper that compares the results of the analysis of the CKM angle alpha in the frequentist and in the Bayesian approaches, we have reconsidered the information on the hadronic amplitudes, which helps in constraining the value of alpha in the standard model. We find that the Bayesian method gives consistent results irrespective of the parametrization of the hadronic amplitudes and that the results of the frequentist and Bayesian approaches are equivalent when comparing meaningful probability ranges or confidence levels. We also find that from B ->pi pi decays alone the 95% probability region for alpha is the interval [80 degrees, 170 degrees], well consistent with recent analyses of the unitarity triangle where, by using all the available experimental and theoretical information, one gets alpha=(93 +/- 4)degrees. Last but not least, by using simple arguments on the hadronic matrix elements, we show that the unphysical region alpha similar to 0, present in several experimental analyses, can be eliminated.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.