Saved in:
Bibliographic Details
Main Authors: Bazavov, Alexei, Trimis, Yannis, Weber, Johannes Heinrich
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2508.18498
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866916917845950464
author Bazavov, Alexei
Trimis, Yannis
Weber, Johannes Heinrich
author_facet Bazavov, Alexei
Trimis, Yannis
Weber, Johannes Heinrich
contents The primary goal of this project is the reconstruction of quarkonium spectral functions from thermal lattice correlators, relevant for the study of Quark-Gluon Plasma in heavy-ion collisions. To this end, we pursue the generation of fully dynamical anisotropic HISQ (aHISQ) ensembles, aiming at a physical strange quark and a heavier-than-physical light quark mass, corresponding to a 300 MeV continuum pion mass. We report on tuning the gauge anisotropy and the lattice spacing of anisotropic pure gauge ensembles with the tree-level Symanzik-improved action using the gradient flow and compare various tuning schemes. We also discuss the simultaneous tuning of the strange quark mass and the quark anisotropy with aHISQ, using spectrum measurements on quenched ensembles. We compare different ways to tune the quark anisotropy and discuss pion taste splittings for aHISQ at anisotropies up to 8. Finally, we present the expressions for the aHISQ fermion force required for dynamical simulations.
format Preprint
id arxiv_https___arxiv_org_abs_2508_18498
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Towards dynamical simulations with the anisotropic HISQ action
Bazavov, Alexei
Trimis, Yannis
Weber, Johannes Heinrich
High Energy Physics - Lattice
The primary goal of this project is the reconstruction of quarkonium spectral functions from thermal lattice correlators, relevant for the study of Quark-Gluon Plasma in heavy-ion collisions. To this end, we pursue the generation of fully dynamical anisotropic HISQ (aHISQ) ensembles, aiming at a physical strange quark and a heavier-than-physical light quark mass, corresponding to a 300 MeV continuum pion mass. We report on tuning the gauge anisotropy and the lattice spacing of anisotropic pure gauge ensembles with the tree-level Symanzik-improved action using the gradient flow and compare various tuning schemes. We also discuss the simultaneous tuning of the strange quark mass and the quark anisotropy with aHISQ, using spectrum measurements on quenched ensembles. We compare different ways to tune the quark anisotropy and discuss pion taste splittings for aHISQ at anisotropies up to 8. Finally, we present the expressions for the aHISQ fermion force required for dynamical simulations.
title Towards dynamical simulations with the anisotropic HISQ action
topic High Energy Physics - Lattice
url https://arxiv.org/abs/2508.18498