In the framework of the factorization approach we calculate the branching fractions of 100 two-body nonleptonic decay channels in total,including 44 channels of the charm meson decays and 56 channels of the bottom mes...In the framework of the factorization approach we calculate the branching fractions of 100 two-body nonleptonic decay channels in total,including 44 channels of the charm meson decays and 56 channels of the bottom meson decays.For charm meson decays,we test and confirm the previous observation that taking the limit for the number of colors N→∞significantly improves theoretical predictions.For bottom meson decays,the penguin contributions are included in addition.As an essential input,we employ the weak decay form factors obtained in the framework of the relativistic quark model based on the quasi-potential approach.These form factors have well been tested by calculating observables in the semileptonic D and B meson decays and confronting obtained results with experimental data.In general,the predictions for the nonleptonic decay branching fractions are acceptable.However,for a quantitative calculation it is necessary to account for a more subtle effects of the final-state interaction.展开更多
基金support from the National Natural Science Foundation of China (NSFC) under Project Nos.11805012 and 12275023.
文摘In the framework of the factorization approach we calculate the branching fractions of 100 two-body nonleptonic decay channels in total,including 44 channels of the charm meson decays and 56 channels of the bottom meson decays.For charm meson decays,we test and confirm the previous observation that taking the limit for the number of colors N→∞significantly improves theoretical predictions.For bottom meson decays,the penguin contributions are included in addition.As an essential input,we employ the weak decay form factors obtained in the framework of the relativistic quark model based on the quasi-potential approach.These form factors have well been tested by calculating observables in the semileptonic D and B meson decays and confronting obtained results with experimental data.In general,the predictions for the nonleptonic decay branching fractions are acceptable.However,for a quantitative calculation it is necessary to account for a more subtle effects of the final-state interaction.