Lattice gauge theory computation of the static force
Nora Brambilla, Viljami Leino, Owe Philipsen, Christian Reisinger, Antonio Vairo, Marc Wagner
Abstract
We explore a novel approach to compute the force between a static quark and a static antiquark with lattice gauge theory directly. The approach is based on expectation values of Wilson loops or Polyakov loops with chromoelectric field insertions. We discuss theoretical and technical aspects in detail, in particular, how to perform their finite multiplicative renormalization and their evaluation using a multilevel algorithm. We also compare the numerical results for the static force to the corresponding results obtained in the traditional way, i.e., by computing first the static potential and then taking the derivative.
Topics & Concepts
ComputationRenormalizationDiscretizationMultiplicative functionLattice gauge theoryLattice field theoryLattice (music)Gauge theoryPhysicsGauge (firearms)Statistical physicsMathematicsTheoretical physicsApplied mathematicsAlgorithmMathematical physicsMathematical analysisArchaeologyHistoryAcousticsQuantum Chromodynamics and Particle InteractionsParticle physics theoretical and experimental studiesHigh-Energy Particle Collisions Research