In order to make optimal use of the experimental data to determine the T branching fractions, their uncertainties, and their correlations, we perform a global minimum X2 fit using the measured values, their uncertaint...In order to make optimal use of the experimental data to determine the T branching fractions, their uncertainties, and their correlations, we perform a global minimum X2 fit using the measured values, their uncertainties, their statistical correlations, their dependencies on external parameters and common systematics, and the relations that hold between the branching fractions, including a unitarity constraint on the sum of all the exclusive τ decay branching fractions. Starting with this edition, we use a new fit procedure, which has been elaborated by the Tau Physics Group within the Heavy Flavour Averaging Group (HFAG) [1].展开更多
文摘In order to make optimal use of the experimental data to determine the T branching fractions, their uncertainties, and their correlations, we perform a global minimum X2 fit using the measured values, their uncertainties, their statistical correlations, their dependencies on external parameters and common systematics, and the relations that hold between the branching fractions, including a unitarity constraint on the sum of all the exclusive τ decay branching fractions. Starting with this edition, we use a new fit procedure, which has been elaborated by the Tau Physics Group within the Heavy Flavour Averaging Group (HFAG) [1].
