Topological charge using cooling and the gradient flow
Abstract
The equivalence of cooling to the gradient flow when the cooling step and the continuous flow step of gradient flow are matched is generalized to gauge actions that include rectangular terms. By expanding the link variables up to subleading terms in perturbation theory, we relate and and show that the results for the topological charge become equivalent when rescaling where is the Symanzik coefficient multiplying the rectangular term. We, subsequently, apply cooling and the gradient flow using the Wilson, the Symanzik tree-level improved and the Iwasaki gauge actions to configurations produced with twisted mass fermions. We compute the topological charge, its distribution and the correlators between cooling and gradient flow at three values of the lattice spacing demonstrating that the perturbative rescaling leads to equivalent results.
Cite
@article{arxiv.1509.04259,
title = {Topological charge using cooling and the gradient flow},
author = {Constantia Alexandrou and Andreas Athenodorou and Karl Jansen},
journal= {arXiv preprint arXiv:1509.04259},
year = {2015}
}
Comments
21 pages, 10 figures