Twenty-First Century Lattice Gauge Theory: Results from the Quantum Chromodynamics Lagrangian

23 November 2012

journal article
Published by Annual Reviews in Annual Review of Nuclear and Particle Science

Vol. 62 (1) , 265-284
https://doi.org/10.1146/annurev-nucl-102711-094942

Abstract

Quantum chromodynamics (QCD) reduces the strong interactions, in all their variety, to a simple nonabelian gauge theory. It clearly and elegantly explains hadrons at short distances, which has led to its universal acceptance. Since its advent, however, many of its long-distance, emergent properties have been believed to be true without having been demonstrated to be true. This article reviews various results in this regime that have been established with lattice gauge theory, directly from the QCD Lagrangian. This research sheds light on the origin of hadron masses, its interplay with dynamical symmetry breaking, and other intriguing features such as the phase structure of QCD. Also, nonperturbative QCD is quantitatively important to many aspects of particle physics (especially the quark flavor sector), nuclear physics, and astrophysics. This review also surveys some of the most interesting connections to those subjects.

Keywords

All Related Versions

This publication has 100 references indexed in Scilit:

Lattice QCD at the physical point: Light quark masses
Physics Letters B, 2011
Building the International Lattice Data Grid
Computer Physics Communications, 2011
$K \to π l ν$ semileptonic form factors from two-flavor lattice QCD
Physical Review D, 2009
$\bar{B} \to D^{*} ℓ \bar{ν}$ form factor at zero recoil from three-flavor lattice QCD: A model independent determination of $| V_{c b} |$
Physical Review D, 2009
Realistic lattice determination of $α_{s} (M_{Z})$ revisited
Physical Review D, 2008
The chiral critical point ofN_f= 3 QCD at finite density to the order (μ/T)⁴
Journal of High Energy Physics, 2008
Possible indications of new physics in Bd-mixing and in sin(2β) determinations
Physics Letters B, 2008
Effect of $H^{\pm}$ on $B^{\pm} \to τ^{\pm} ν_{τ}$ and $D_{s}^{\pm} \to μ^{\pm} ν_{μ}$ , $τ^{\pm} ν_{τ}$
Physical Review D, 2007
Testing non-perturbative strong interaction effects via the Adler function
Physics Letters B, 1999
Weak decays of heavy mesons in the static quark approximation
Physics Letters B, 1989