CERN Accelerating science

Article
Title	HVP contribution to Running Coupling and Electroweak Precision Science
Author(s)	Miura, Kohtaroh (Helmholtz Inst., Mainz ; Darmstadt, GSI ; KMI, Nagoya) ; Cè, Marco (CERN) ; Gérardin, Antoine (Aix-Marseille U.) ; von Hippel, Georg (U. Mainz, PRISMA ; Mainz U., Inst. Kernphys.) ; Meyer, Harvey B (Helmholtz Inst., Mainz ; Darmstadt, GSI ; U. Mainz, PRISMA ; Mainz U., Inst. Kernphys.) ; Ottnad, Konstantin (Mainz U., Inst. Kernphys. ; U. Mainz, PRISMA) ; Risch, Andreas (NIC, Zeuthen) ; San Jose, Teseo (Helmholtz Inst., Mainz ; Darmstadt, GSI ; U. Mainz, PRISMA ; Mainz U., Inst. Kernphys.) ; Wilhelm, Jonas (Helmholtz Inst., Mainz ; Darmstadt, GSI ; U. Mainz, PRISMA ; Mainz U., Inst. Kernphys. ; CERN) ; Wittig, Hartmut (Helmholtz Inst., Mainz ; Darmstadt, GSI ; U. Mainz, PRISMA ; Mainz U., Inst. Kernphys. ; CERN)
Publication	2022
Number of pages	9
In:	PoS LATTICE2021 (2022) 342
In:	38th International Symposium on Lattice Field Theory, Online, 26 - 30 Jul 2021, pp.342
DOI	10.22323/1.396.0342
Subject category	Particle Physics - Phenomenology ; Particle Physics - Lattice
Abstract	We investigate the impact of the latest Mainz/CLS collaboration’s result for the hadronic vacuum polarization (HVP) on the electroweak (EW) precision science. The subject is closely related to the muon g-2 via the HVP. Both precision tests come under scrutiny with respect to physics Beyond the Standard Model. Our HVP calculation is used for the running electromagnetic coupling at low energy and linked at various matching energies to the higher energy running evaluated by phenomenological approaches. We predict the electromagnetic coupling at the Z-pole (alpha(Mz^2)), providing a lattice-driven input to EW-global fits. Our preliminary alpha(Mz^2) is stable for a wide range of matching energies and comes with various systematics taken into account and consistent with phenomenological estimates.
Copyright/License	© 2022-2025 The author(s) (License: CC-BY-NC-ND-4.0)

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