Understanding the dynamics of strongly coupled non-Abelian gauge theories constitutes one of the ongoing grand challenges in theoretical physics. This has been motivated by the need to understand long-distance behavior of quantum chromodynamics, and by the possible phenomenological applications in dynamical electroweak symmetry breaking or strongly coupled and composite dark sectors. In this review, we start by briefly outlining these motivations, and then discuss how first principle lattice methods have been adapted to provide results on vacuum phase diagrams of strongly coupled gauge theories with different gauge groups and various fermion representations
Supersymmetry plays prominent roles in the study of quantum field theory and in many proposals for p...
The results of several numerical simulations of QCD by Monte Carlo lattice gauge theory are presente...
This is a review, intended for lattice nonspecialists, of the studies of the compact abelian gauge t...
Understanding the dynamics of strongly coupled non-Abelian gauge theories constitutes one of the ong...
We review some recent progress in our understanding of the phase diagram of non abelian gauge theori...
Recent progress in the field of lattice gauge theories is briefly reviewed for a nonspecialist audie...
Lattice gauge theory is now well into its third decade as a major subfield of theoretical particle p...
Models for what may lie behind the Standard Model often require nonperturbative calculations in stro...
The Standard Model has been experimentally tested to a remarkable precision. Some questions, however...
The international workshop “New Frontiers in Lattice Gauge Theories” took place at the Galileo Galil...
Strongly-coupled gauge theories are an important ingredient in the construction of many exten-sions ...
We review our efforts in investigating gauge theories with fermions in the adjoint representation of...
Abelian and non-Abelian gauge theories are of central importance in many areas of physics. In conde...
We present the lattice gauge theory approach to evaluating non-perturbative hadronic interactions fr...
We present a brief overview of the status of lattice QCD computations for the study of strong intera...
Supersymmetry plays prominent roles in the study of quantum field theory and in many proposals for p...
The results of several numerical simulations of QCD by Monte Carlo lattice gauge theory are presente...
This is a review, intended for lattice nonspecialists, of the studies of the compact abelian gauge t...
Understanding the dynamics of strongly coupled non-Abelian gauge theories constitutes one of the ong...
We review some recent progress in our understanding of the phase diagram of non abelian gauge theori...
Recent progress in the field of lattice gauge theories is briefly reviewed for a nonspecialist audie...
Lattice gauge theory is now well into its third decade as a major subfield of theoretical particle p...
Models for what may lie behind the Standard Model often require nonperturbative calculations in stro...
The Standard Model has been experimentally tested to a remarkable precision. Some questions, however...
The international workshop “New Frontiers in Lattice Gauge Theories” took place at the Galileo Galil...
Strongly-coupled gauge theories are an important ingredient in the construction of many exten-sions ...
We review our efforts in investigating gauge theories with fermions in the adjoint representation of...
Abelian and non-Abelian gauge theories are of central importance in many areas of physics. In conde...
We present the lattice gauge theory approach to evaluating non-perturbative hadronic interactions fr...
We present a brief overview of the status of lattice QCD computations for the study of strong intera...
Supersymmetry plays prominent roles in the study of quantum field theory and in many proposals for p...
The results of several numerical simulations of QCD by Monte Carlo lattice gauge theory are presente...
This is a review, intended for lattice nonspecialists, of the studies of the compact abelian gauge t...