Nuclear Physics, Section B, ISSN 0550-3213, 06/2019, Volume 943, p. 114616

We discuss a particular lattice discretization of abelian gauge theories in arbitrary dimensions. The construction is based on gauging the center symmetry of a...

PHASE | SCHWINGER MODEL | PHYSICS, PARTICLES & FIELDS

PHASE | SCHWINGER MODEL | PHYSICS, PARTICLES & FIELDS

Journal Article

2005, ISBN 1860945791, xii, 202

Book

Physics Letters B, ISSN 0370-2693, 08/2017, Volume 771, pp. 408 - 414

There is numerical evidence that the world sheet action of the confining flux tube in D=3+1SU(N) gauge theories contains a massive excitation with 0− quantum...

VACUUM | PHYSICS, NUCLEAR | MODEL | INSTANTONS | ASTRONOMY & ASTROPHYSICS | PHYSICS, PARTICLES & FIELDS | High Energy Physics - Lattice | High Energy Physics - Theory | Physics

VACUUM | PHYSICS, NUCLEAR | MODEL | INSTANTONS | ASTRONOMY & ASTROPHYSICS | PHYSICS, PARTICLES & FIELDS | High Energy Physics - Lattice | High Energy Physics - Theory | Physics

Journal Article

2012, 4th ed., World Scientific lecture notes in physics, ISBN 9814365866, Volume 82., xx, 606

Book

Letters in Mathematical Physics, ISSN 0377-9017, 2014, Volume 104, Issue 4, pp. 465 - 493

We compute the elliptic genera of two-dimensional and -gauged linear sigma models via supersymmetric localization, for rank-one gauge groups. The elliptic...

localization | supersymmetry | elliptic genus | two-dimensional field theory | SYMMETRY | PHYSICS, MATHEMATICAL | GEOMETRY

localization | supersymmetry | elliptic genus | two-dimensional field theory | SYMMETRY | PHYSICS, MATHEMATICAL | GEOMETRY

Journal Article

Journal of High Energy Physics, ISSN 1126-6708, 10/2017, Volume 2017, Issue 10, pp. 1 - 25

An extensive study of the compact U(1) lattice gauge theory with a higher derivative gauge-fixing term and a suitable counter-term has been undertaken to...

Gauge Symmetry | Lattice Quantum Field Theory | Quantum Physics | Quantum Field Theories, String Theory | Classical and Quantum Gravitation, Relativity Theory | Physics | Nonperturbative Effects | Elementary Particles, Quantum Field Theory | INVARIANCE | MASSES | SYMMETRY | CHIRAL FERMIONS | PHASE-TRANSITION | NEUTRINOS | DIAGRAM | PHYSICS, PARTICLES & FIELDS | Analysis | Nuclear physics | Algorithms | Perturbation theory | Couplings | Gauge theory | Mathematical analysis | Photons | Configurations | Phase transitions | High Energy Physics - Lattice | High Energy Physics | Nuclear and particle physics. Atomic energy. Radioactivity | High Energy Physics - Theory | Lattice

Gauge Symmetry | Lattice Quantum Field Theory | Quantum Physics | Quantum Field Theories, String Theory | Classical and Quantum Gravitation, Relativity Theory | Physics | Nonperturbative Effects | Elementary Particles, Quantum Field Theory | INVARIANCE | MASSES | SYMMETRY | CHIRAL FERMIONS | PHASE-TRANSITION | NEUTRINOS | DIAGRAM | PHYSICS, PARTICLES & FIELDS | Analysis | Nuclear physics | Algorithms | Perturbation theory | Couplings | Gauge theory | Mathematical analysis | Photons | Configurations | Phase transitions | High Energy Physics - Lattice | High Energy Physics | Nuclear and particle physics. Atomic energy. Radioactivity | High Energy Physics - Theory | Lattice

Journal Article

Physics Letters B, ISSN 0370-2693, 05/2016, Volume 756, Issue C, pp. 6 - 9

We use gauge-string duality to model the N-quark potential in pure Yang–Mills theories. For SU(3), the result agrees remarkably well with lattice simulations....

PHYSICS, NUCLEAR | ASTRONOMY & ASTROPHYSICS | PHYSICS, PARTICLES & FIELDS | Analysis | Quarks | Models | Gauge theory | Computer simulation | Yang-Mills theory | Lattices | Elementary particles | High Energy Physics - Lattice | Physik | High Energy Physics - Phenomenology | High Energy Physics | Nuclear and High Energy Physics | Theory | Nuclear Theory | High Energy Physics - Theory | Physics | Lattice

PHYSICS, NUCLEAR | ASTRONOMY & ASTROPHYSICS | PHYSICS, PARTICLES & FIELDS | Analysis | Quarks | Models | Gauge theory | Computer simulation | Yang-Mills theory | Lattices | Elementary particles | High Energy Physics - Lattice | Physik | High Energy Physics - Phenomenology | High Energy Physics | Nuclear and High Energy Physics | Theory | Nuclear Theory | High Energy Physics - Theory | Physics | Lattice

Journal Article

1997, 2nd ed., World Scientific lecture notes in physics, ISBN 9789810230326, Volume 59, xv, 512

Book

1992, World Scientific lecture notes in physics, ISBN 9810206062, Volume 43., xiii, 381

Book

Physics Letters B, ISSN 0370-2693, 06/2012, Volume 712, Issue 3, pp. 279 - 283

The deconfinement transition in SU(Nc) Yang–Mills is investigated by Monte Carlo simulations of the gauge theory discretized on a spacetime lattice. We present...

Deconfinement transition | Large [formula omitted] limit | [formula omitted] Yang–Mills theories | Lattice gauge theories | limit | Yang-Mills theories | SU(N | Large N | LARGE N | PHASE | Large N-c limit | ASTRONOMY & ASTROPHYSICS | PHYSICS, NUCLEAR | SU(N-c) Yang-Mills theories | PHYSICS, PARTICLES & FIELDS | Thermodynamics | Monte Carlo method

Deconfinement transition | Large [formula omitted] limit | [formula omitted] Yang–Mills theories | Lattice gauge theories | limit | Yang-Mills theories | SU(N | Large N | LARGE N | PHASE | Large N-c limit | ASTRONOMY & ASTROPHYSICS | PHYSICS, NUCLEAR | SU(N-c) Yang-Mills theories | PHYSICS, PARTICLES & FIELDS | Thermodynamics | Monte Carlo method

Journal Article

Physics Reports, ISSN 0370-1573, 05/2013, Volume 526, Issue 2, pp. 93 - 163

We review the theoretical developments and conceptual advances that stemmed from the generalization of QCD to the limit of a large number of color charges,...

[formula omitted] gauge theories | QCD | Large-[formula omitted] limit | Lattice gauge theory | SU(N) gauge theories | Large-N limit | HYPERFINE MASS SPLITTINGS | PHYSICS, MULTIDISCIPLINARY | NONLINEAR SIGMA-MODEL | TWO-DIMENSIONAL LATTICE | GLUEBALL REGGE TRAJECTORIES | EGUCHI-KAWAI MODEL | DECONFINEMENT PHASE-TRANSITION | EXCITED HEAVY BARYONS | SIMPLICIAL QUANTUM-GRAVITY | CHIRAL-SYMMETRY-BREAKING | YANG-MILLS THEORIES

[formula omitted] gauge theories | QCD | Large-[formula omitted] limit | Lattice gauge theory | SU(N) gauge theories | Large-N limit | HYPERFINE MASS SPLITTINGS | PHYSICS, MULTIDISCIPLINARY | NONLINEAR SIGMA-MODEL | TWO-DIMENSIONAL LATTICE | GLUEBALL REGGE TRAJECTORIES | EGUCHI-KAWAI MODEL | DECONFINEMENT PHASE-TRANSITION | EXCITED HEAVY BARYONS | SIMPLICIAL QUANTUM-GRAVITY | CHIRAL-SYMMETRY-BREAKING | YANG-MILLS THEORIES

Journal Article

Journal of High Energy Physics, ISSN 1126-6708, 12/2017, Volume 2017, Issue 12, pp. 1 - 51

We classify su(N c ) gauge theories on ℝ3×S1 $$ {\mathrm{\mathbb{R}}}^3\times {\mathbb{S}}^1 $$ with massless fermions in higher representations obeying...

Confinement | Solitons Monopoles and Instantons | Field Theories in Lower Dimensions | Quantum Physics | Quantum Field Theories, String Theory | Classical and Quantum Gravitation, Relativity Theory | Physics | Elementary Particles, Quantum Field Theory | QUARK CONFINEMENT | MONOPOLES | PHYSICS, PARTICLES & FIELDS | Coupling (molecular) | Fermions | Breaking | Monopoles | Domain walls | Conjugation | Representations | Instantons | Symmetry | Solid phases | High Energy Physics - Lattice | High Energy Physics - Phenomenology | Nuclear and particle physics. Atomic energy. Radioactivity | High Energy Physics - Theory

Confinement | Solitons Monopoles and Instantons | Field Theories in Lower Dimensions | Quantum Physics | Quantum Field Theories, String Theory | Classical and Quantum Gravitation, Relativity Theory | Physics | Elementary Particles, Quantum Field Theory | QUARK CONFINEMENT | MONOPOLES | PHYSICS, PARTICLES & FIELDS | Coupling (molecular) | Fermions | Breaking | Monopoles | Domain walls | Conjugation | Representations | Instantons | Symmetry | Solid phases | High Energy Physics - Lattice | High Energy Physics - Phenomenology | Nuclear and particle physics. Atomic energy. Radioactivity | High Energy Physics - Theory

Journal Article

Annals of Physics, ISSN 0003-4916, 03/2013, Volume 330, pp. 160 - 191

We discuss a general framework for the realization of a family of Abelian lattice gauge theories, i.e., link models or gauge magnets, in optical lattices. We...

Gauge magnet | Optical lattice | Lattice gauge theory | Quantum simulation | FIELDS | SPIN | PHYSICS, MULTIDISCIPLINARY | IONS | QUANTUM COMPUTATION | DRIVEN | NEUTRAL ATOMS | MODELS | SYSTEMS | SIMULATOR | MAGNETS | Quantum physics | Magnetism | Lattice theory | U-1 GROUPS | TENSORS | PHYSICS OF ELEMENTARY PARTICLES AND FIELDS | PHASE DIAGRAMS | LATTICE FIELD THEORY | ATOMIC AND MOLECULAR PHYSICS | ATOMS |

Gauge magnet | Optical lattice | Lattice gauge theory | Quantum simulation | FIELDS | SPIN | PHYSICS, MULTIDISCIPLINARY | IONS | QUANTUM COMPUTATION | DRIVEN | NEUTRAL ATOMS | MODELS | SYSTEMS | SIMULATOR | MAGNETS | Quantum physics | Magnetism | Lattice theory | U-1 GROUPS | TENSORS | PHYSICS OF ELEMENTARY PARTICLES AND FIELDS | PHASE DIAGRAMS | LATTICE FIELD THEORY | ATOMIC AND MOLECULAR PHYSICS | ATOMS |