Litcius/Paper detail

Lattice quantum electrodynamics in (3+1)-dimensions at finite density with tensor networks

Giuseppe Magnifico, Timo Felser, Pietro Silvi, Simone Montangero

2021Nature Communications76 citationsDOIOpen Access PDF

Abstract

Gauge theories are of paramount importance in our understanding of fundamental constituents of matter and their interactions. However, the complete characterization of their phase diagrams and the full understanding of non-perturbative effects are still debated, especially at finite charge density, mostly due to the sign-problem affecting Monte Carlo numerical simulations. Here, we report the Tensor Network simulation of a three dimensional lattice gauge theory in the Hamiltonian formulation including dynamical matter: Using this sign-problem-free method, we simulate the ground states of a compact Quantum Electrodynamics at zero and finite charge densities, and address fundamental questions such as the characterization of collective phases of the model, the presence of a confining phase at large gauge coupling, and the study of charge-screening effects.

Topics & Concepts

PhysicsLattice gauge theoryQuantum Monte CarloHamiltonian (control theory)Gauge theoryQuantum mechanicsQuantum electrodynamicsLattice (music)Lattice field theoryQuantumTensor (intrinsic definition)Charge (physics)Hamiltonian lattice gauge theoryQuantum phasesStatistical physicsTheoretical physicsMonte Carlo methodQuantum field theoryOptical latticePhase diagramCharge densityLattice model (finance)Gauge (firearms)Gauge fixingQuantum many-body systemsCold Atom Physics and Bose-Einstein CondensatesPhysics of Superconductivity and Magnetism
Lattice quantum electrodynamics in (3+1)-dimensions at finite density with tensor networks | Litcius