Multipoint reweighting method and beta functions for the calculation of QCD equation of state

TL;DR

This paper introduces a multipoint reweighting method for studying QCD at finite density, addressing the overlap problem by combining results from multiple simulation points, and calculates beta functions and meson masses to aid in the equation of state determination.

Contribution

The paper proposes a novel multipoint reweighting technique to improve QCD simulations at finite density and applies it to compute beta functions and meson masses.

Findings

Successful implementation of the multipoint reweighting method.

Continuous meson mass functions in (beta, kappa) space.

Determination of lines of constant physics and beta functions.

Abstract

We study a reweighting method aiming at numerical studies of QCD at finite density, in which the conventional Monte-Carlo method cannot be applied directly. One of the most important problems in the reweighting method is the overlap problem. To solve it, we propose to perform simulations at several simulation points and combine their results in the data analyses. In this report, we introduce this multipoint reweighting method and test if the method works well by measuring histograms of physical quantities. Using this method, we calculate the meson masses as continuous functions of the gauge coupling beta and the hopping parameters kappa in QCD at zero density. We then determine lines of constant physics in the (beta, kappa) space and evaluate the derivatives of the lattice spacing with respect to beta and kappa along the lines of constant physics (inverse of the beta functions), which are needed in a calculation of the equation of state.