Results on improved KS dynamical configurations: spectrum, decay constants, etc

TL;DR

This paper discusses recent advancements in lattice QCD simulations with three dynamical flavors, achieving 2-3% accuracy in hadronic observables and showing improved agreement with experimental results.

Contribution

It details technical improvements in lattice QCD calculations with three dynamical flavors and demonstrates their impact on accurately computing hadronic observables.

Findings

Achieved 2-3% accuracy in hadronic observable calculations.

Improved agreement between lattice QCD results and experimental data.

Presented results across multiple lattice spacings and quark masses.

Abstract

The MILC Collaboration has been producing ensembles of lattice configurations with three dynamical flavors for the past few years. There are now results for three lattice spacings for a variety of light and strange quark masses, ranging down to $m_l=0.1 m_s$, where $m_s$ is the dynamical strange quark mass and $m_l$ is the common mass of the $u$ and $d$ quarks. Recently, the Fermilab, HPQCD, MILC and UKQCD collaborations have presented a summary of results obtained using these lattices. Compared with quenched results, these new calculations show great improvement in agreement with experiment. This talk addresses the technical improvements that make these calculations possible and provides additional details of calculations not presented in the initial summary. We demonstrate that a wide range of hadronic observables can now be calculated to 2--3% accuracy.