TL;DR
This paper reviews recent lattice QCD results on light hadron masses and decay constants, discussing methods for extrapolating to physical conditions to enhance understanding of hadron properties.
Contribution
It provides a comprehensive overview of recent lattice QCD calculations for light hadron spectrum and decay constants, focusing on extrapolation techniques to physical parameters.
Findings
Lattice QCD effectively computes light hadron masses and decay constants.
Different extrapolation approaches impact the accuracy of physical predictions.
Recent results improve understanding of hadron structure and interactions.
Abstract
The extraction of the light hadron spectrum from a first-principle Quantum Chromodynamics approach is a profound application for lattice simulations of Quantum Chromodynamics. This review will cover recent lattice results for the masses and decay constants of the light hadrons. In particular, the applicability of different approaches for the extrapolation towards the physical point will be discussed.
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