Scalar leptoquark and vector-like quark extended models as the explanation of the muon g-2 anomaly: bottom partner chiral enhancement case
Abstract
Leptoquark (LQ) models are well motivated solutions to the (g-2)μ anomaly. In the minimal LQ models, only specific representations can lead to the chiral enhancements. For the scalar LQs, the R2 and S1 can lead to the top quark chiral enhancement. For the vector LQs, the V2 and U1 can lead to the bottom quark chiral enhancement. When we consider the LQ and vector-like quark (VLQ) simultaneously, there can be more scenarios. In our previous work, we considered the scalar LQ and VLQ extended models with up-type quark chiral enhancement. Here, we study the scalar LQ and VLQ extended models with down-type quark chiral enhancement. We find two new models with B quark chiral enhancement, which originate from the bottom and bottom partner mixing. Then, we propose new LQ and VLQ search channels under the constraints of (g-2)μ.
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