Impact of Lattice QCD on CKM Phenomenology

TL;DR

Recent advances in lattice QCD have significantly improved the precision of hadronic parameters, enhancing the understanding of CKM matrix elements and aiding in the search for new physics in flavour and CP violation studies.

Contribution

This review highlights the impact of recent lattice QCD results on CKM phenomenology and discusses future directions for lattice calculations to further influence flavour physics.

Findings

Improved lattice QCD results refine CKM matrix element determinations.

Enhanced precision in hadronic matrix elements aids in identifying new physics.

Future lattice calculations could substantially impact flavour phenomenology.

Abstract

Precise lattice QCD results for hadronic matrix elements, decay constants and form factors play a crucial role in the determination of CKM matrix elements and in the identification of possible new physics contributions to flavour violating observables. This article reviews the implications of recent lattice QCD results on the phenomenology of flavour and CP violating meson decays, and highlights some future directions for lattice QCD calculations which would have a major impact on flavour phenomenology.