@Article{Binosi_etal2015,
author="Binosi, D.
and Chang, L.
and Papavassiliou, J.
and Roberts, C. D.",
title="Bridging a gap between continuum-QCD and ab initio predictions of hadron observables",
journal="Physics Letters B",
year="2015",
publisher="Elsevier Science Bv",
volume="742",
pages="183--188",
optkeywords="Dyson-Schwinger equations; Confinement; Dynamical chiral symmetry breaking; Fragmentation; Gribov copies",
abstract="Within contemporary hadron physics there are two common methods for determining the momentum-dependence of the interaction between quarks: the top-down approach, which works toward an ab initio computation of the interaction via direct analysis of the gauge-sector gap equations; and the bottom-up scheme, which aims to infer the interaction by fitting data within a well-defined truncation of those equations in the matter sector that are relevant to bound-state properties. We unite these two approaches by demonstrating that the renormalisation-group-invariant running-interaction predicted by contemporary analyses of QCD{\textquoteright}s gauge sector coincides with that required in order to describe ground-state hadron observables using a nonperturbative truncation of QCD{\textquoteright}s Dyson-Schwinger equations in the matter sector. This bridges a gap that had lain between nonperturbative continuum-QCD and the ab initioprediction of bound-state properties.",
optnote="WOS:000350555900026",
optnote="exported from refbase (https://references.ific.uv.es/refbase/show.php?record=2156), last updated on Thu, 09 Apr 2015 16:02:31 +0000",
issn="0370-2693",
doi="10.1016/j.physletb.2015.01.031",
opturl="http://arxiv.org/abs/1412.4782",
opturl="https://doi.org/10.1016/j.physletb.2015.01.031",
archivePrefix="arXiv",
eprint="1412.4782",
language="English"
}