New physics in the angular distribution of Bc- J/ ( μ+ μ-)τ- ( π- τ)τ decay

Abstract

In Bc- J/ ( μ+ μ-)τ-τ decay, the three-momentum pτ- cannot be determined accurately due to the decay products of τ- inevitably include an undetected τ. As a consequence, the angular distribution of this decay cannot be measured. In this work, we construct a measurable angular distribution by considering the subsequent decay τ- π- τ. The full cascade decay is Bc- J/ ( μ+ μ-)τ- ( π- τ)τ, in which the three-momenta pμ+, pμ-, and pπ- can be measured. The five-fold differential angular distribution containing all Lorentz structures of the new physics (NP) effective operators can be written in terms of twelve angular observables Ii (q2, Eπ). Integrating over the energy of pion Eπ, we construct twelve normalized angular observables Ii(q2) and two lepton-flavor-universality ratios R(PL,TJ/)(q2). Based on the Bc J/ form factors calculated by the latest lattice QCD and sum rule, we predict the q2 distribution of all Ii and R(PL,TJ/) both within the Standard Model and in eight NP benchmark points. We find that the benchmark BP2 (corresponding to the hypothesis of tensor operator) has the greatest effect on all Ii and R(PL,TJ/), except I5. The ratios R(PL,TJ/) are more sensitive to the NP with pseudo-scalar operators than the Ii. Finally, we discuss the symmetries in the angular observables and present a model-independent method to determine the existence of tensor operators.