The hadronic contribution to the running of the electroweak gauge couplings
Abstract
We present an updated determination of the hadronic vacuum polarization contribution to the running of the electromagnetic coupling αhad(5)(-Q2), and of the electroweak mixing angle in the space-like momentum range up to 12 \ GeV2. Using Nf=2+1 CLS ensembles at five values of the lattice spacing and several pion masses, including the physical point, we achieve a significantly enhanced precision over our previous result. A refined analysis strategy based on telescopic series and a new family of kernel functions enables a clean separation of distinct Euclidean regions, disentangling strong cutoff effects at short distances from the pronounced chiral dependence at larger ones. Employing the Euclidean split technique, we convert our lattice results into an ab initio estimate of αhad(5)(MZ2). A comparison with results from other lattice calculations and phenomenology is performed. We also analyze improvement scenarios required to match the projected precision of future electroweak measurements at next-generation colliders.
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