Hadronic contributions to electroweak observables within DPT

TL;DR

This paper applies a dispersive approach to quantum chromodynamics to evaluate hadronic contributions to electroweak observables, successfully aligning with recent experimental assessments.

Contribution

It introduces a dispersive method combining perturbative and nonperturbative constraints for calculating hadronic effects in electroweak observables.

Findings

Hadronic contributions to muon g-2 are consistent with recent measurements.

Electromagnetic fine structure constant shift aligns with current evaluations.

Method effectively merges perturbative and nonperturbative QCD inputs.

Abstract

Dispersive approach to quantum chromodynamics is applied to the assessment of hadronic contributions to electroweak observables. The employed approach merges the corresponding perturbative input with intrinsically nonperturbative constraints, which originate in the respective kinematic restrictions. The evaluated hadronic contributions to the muon anomalous magnetic moment and to the shift of the electromagnetic fine structure constant at the scale of Z boson mass conform with recent assessments of these quantities.