Tensor-current contributions to B Anomalies
Abstract
Tensor-current operators, potentially generated by scalar leptoquarks in grand unified theories (GUTs), are among the plausible new physics (NP) candidates suggested by the anomalies observed in B-meson decays. As experimental data continue to accumulate, exploring this possibility remains timely and well motivated. In this work, we present a systematic analysis of representative tensor-current Wilson coefficients (CT, CT5) in b s + - transitions. By incorporating contributions from the high-q2 region, our framework fully exploits the available experimental data across the entire q2 range. Within this setup, five distinct lepton-flavor-universal (LFU) scenarios are proposed and tested through global fits. Our results show that it is difficult to resolve the tension between experimental measurements and theoretical predictions using only CT and CT5. Meanwhile, the significance of C9 remains essentially unchanged, even in the presence of tensor contributions. In one representative scenario (S-III), we obtain [C9,C10, CT, CT5] [-1.05,\,0.22,\,0.02,\,0.01], with a reduced chi-squared statistic 2 2 min/ d.o.f. = 708.7/486 = 1.46. Furthermore, we derive a stringent 95\% C.L. constraint on tensor operators, F(x,y)|S-Ix= CT,\,y= CT5 = x2 + 0.063\,xy + 0.989\,y2 + 0.034\,x + 0.043\,y ≤ 0.003, which provides one of the strongest bounds to date on CT and CT5.
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