摘要
It is well recognized that looking for new physics at lower energy colliders is a path wnmn is complemen- tary to high energy machines such as the LHC. Using the large volume of data collected by BESIII, we may have a unique opportunity to tackle this. In this paper we calculate the branching ratios of the semi-leptonic processes D+ → K+e-e+ and D+ → K+e-P-+, and the leptonic processes D0→ e-e+ and D0→ e-μ+, in the frameworks of the U(1) model, 2HDM and unparticle model. It is found that both the U(1) model and 2HDM may influence the semi-leptonic decay rates, but only the U(1) model offers substantial contributions to the pure leptonic decays, and the resultant branching ratio of DO → e- μ+ can be as large as 10-7 - 10-8. This might be observed at the future super τ-charm factory.
It is well recognized that looking for new physics at lower energy colliders is a path wnmn is complemen- tary to high energy machines such as the LHC. Using the large volume of data collected by BESIII, we may have a unique opportunity to tackle this. In this paper we calculate the branching ratios of the semi-leptonic processes D+ → K+e-e+ and D+ → K+e-P-+, and the leptonic processes D0→ e-e+ and D0→ e-μ+, in the frameworks of the U(1) model, 2HDM and unparticle model. It is found that both the U(1) model and 2HDM may influence the semi-leptonic decay rates, but only the U(1) model offers substantial contributions to the pure leptonic decays, and the resultant branching ratio of DO → e- μ+ can be as large as 10-7 - 10-8. This might be observed at the future super τ-charm factory.
基金
Supported by National Natural Science Foundation of China(11675082,11375128,11405046)
Special Grant of the Xuzhou University of Technology(XKY2016211)
