Journal of High Energy Physics (Feb 2023)

Isospin-breaking corrections to light-meson leptonic decays from lattice simulations at physical quark masses

  • Peter Boyle,
  • Matteo Di Carlo,
  • Felix Erben,
  • Vera Gülpers,
  • Maxwell T. Hansen,
  • Tim Harris,
  • Nils Hermansson-Truedsson,
  • Raoul Hodgson,
  • Andreas Jüttner,
  • Fionn Ó hÓgáin,
  • Antonin Portelli,
  • James Richings,
  • Andrew Zhen Ning Yong

DOI
https://doi.org/10.1007/JHEP02(2023)242
Journal volume & issue
Vol. 2023, no. 2
pp. 1 – 66

Abstract

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Abstract The decreasing uncertainties in theoretical predictions and experimental measurements of several hadronic observables related to weak processes, which in many cases are now smaller than O(1%), require theoretical calculations to include subleading corrections that were neglected so far. Precise determinations of leptonic and semi-leptonic decay rates, including QED and strong isospin-breaking effects, can play a central role in solving the current tensions in the first-row unitarity of the CKM matrix. In this work we present the first RBC/UKQCD lattice calculation of the isospin-breaking corrections to the ratio of leptonic decay rates of kaons and pions into muons and neutrinos. The calculation is performed at fixed lattice spacing (a −1 ≃ 1.730 GeV) on a 483 × 96 volume with N f = 2 + 1 dynamical quarks close to the physical point and domain wall fermions in the Möbius formulation are employed. Long-distance QED interactions are included according to the QEDL prescription and the crucial role of finite-volume electromagnetic corrections in the determination of leptonic decay rates, which produce a large systematic uncertainty, is extensively discussed. Finally, we study the different sources of uncertainty on |V us|/|V ud| and observe that, if finite-volume systematics can be reduced, the error from isospin-breaking corrections is potentially sub-dominant in the final precision of the ratio of the CKM matrix elements.

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