Importance of Loop Effects in Explaining the Accumulated Evidence for New Physics in B Decays with a Vector Leptoquark

Abstract

In recent years experiments revealed intriguing hints for new physics (NP) in B decays involving and b s+- transitions at the 4\,σ and 5\,σ level, respectively. In addition, there are slight disagreements in b u τ and b dμ+μ- observables. While not significant on their own, they point in the same direction. Furthermore, Vus extracted from τ decays shows a slight tension (≈2.5\,σ) with its value determined from CKM unitarity. Additionally, BELLE found hints for an excess in Bdτ+τ-. Concerning NP explanations, the vector leptoquark SU(2) singlet is of special interest since it is the only single particle extension of the SM which can (in principle) address all the anomalies described above. For this purpose, large couplings to τ leptons are necessary and loop effects, which we calculate in this article, become important. Including them in our phenomenological analysis, we find that neither the tension in Vus nor the excess in Bdτ+τ- can be fully explained without violating bounds from Kπ. However, one can account for b cτ and b uτ data finding intriguing correlations with Bqτ+τ- and K π. Furthermore, the explanation of b cτ predicts a positive shift in C7 and a negative one in C9, being nicely in agreement with the global fit to b s+- data. Finally, we point out that one can fully account for and b s+- without violating bounds from τ φμ, τμ or b sτμ processes.