We review results for the phase diagram of QCD, the properties of quarks and gluons and
the resulting properties of strongly interacting matter at finite temperature and chemical …

The last decade has seen a marked shift in how the internal structure of hadrons is
understood. Modern experimental facilities, new theoretical techniques for the continuum …

Recent studies of QCD Green's functions and their applications in hadronic physics are
reviewed. We discuss the definition of the generating functional in gauge theories, in …

We review the spectrum and electromagnetic properties of baryons described as relativistic
three-quark bound states within QCD. The composite nature of baryons results in a rich …

Dyson–Schwinger equations furnish a Poincaré covariant framework within which to study
hadrons. A particular feature is the existence of a nonperturbative, symmetry preserving …

Continuum strong QCD is the application of models and continuum quantum field theory to
the study of phenomena in hadronic physics, which includes; eg, the spectrum of QCD …

We present the first Dyson–Schwinger calculation of the three-gluon vertex in Landau-
gauge QCD in which its full covariant structure is back-coupled self-consistently. We truncate …

This review treats the advances in Light Baryon Spectroscopy of the last two decades, which
were mainly obtained by measuring meson-production reactions at photon facilities all over …

Elastic electromagnetic nucleon form factors have long provided vital information about the
structure and composition of these most basic elements of nuclear physics. The form factors …

An overview of the theory and phenomenology of hadrons and QCD is provided from a
Dyson–Schwinger equation viewpoint. Following a discussion of the definition and …