Abstract
We juxtapose global fits of two bottom-up models (an S3 scalar leptoquark model and a B3 – L2 Z′ model) of b → sμ+μ− anomalies to flavour data in order to quantify statistical preference or lack thereof. The leptoquark model couples directly to left-handed di-muon pairs, whereas the Z′ model couples to di-muon pairs with a vector-like coupling. \( {B}_s-\overline{B_s} \) mixing is a focus because it is typically expected to disfavour Z′ explanations. In two-parameter fits to 247 flavour observables, including Bs/d → μ+μ− branching ratios for which we provide an updated combination and LHCb \( {R}_{K^{\left(\ast \right)}} \) measurements from December 2022, we show that each model provides a similar improvement in quality-of-fit of \( \sqrt{\Delta {\chi}^2} \) = 3.6 with respect to the Standard Model. The main effect of the \( {B}_s-\overline{B_s} \) mixing constraint in the Z′ model is to disfavour values of the sL – bL mixing angle greater than about 5|Vcb|. This limit is rather loose, meaning that a good fit to data does not require ‘alignment’ in either quark Yukawa matrix. No curtailment of the sL − bL mixing angle is evident in the S3 model.
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Allanach, B., Davighi, J. The Rumble in the Meson: a leptoquark versus a Z′ to fit b → sμ+μ− anomalies including 2022 LHCb \( {R}_{K^{\left(\ast \right)}} \) measurements. J. High Energ. Phys. 2023, 33 (2023). https://doi.org/10.1007/JHEP04(2023)033
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DOI: https://doi.org/10.1007/JHEP04(2023)033