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Using high statistics datasets generated in (2+1) -flavor QCD calculations at finite temperature, we present results for low-order cumulants of net-baryon-number fluctuations at nonzero values of the baryon chemical potential. We calculate Taylor expansions for the pressure (zeroth-order cumulant), the net-baryon-number density (first-order cumulant), and the variance of the distribution on net-baryon-number fluctuations (second-order cumulant). We obtain series expansions from an eighth-order expansion of the pressure and compare these to diagonal Pad\'e approximants. This allows us to estimate the range of values for the baryon chemical potential in which these expansions are reliable. We find ₁/T2. 5, 2. 0, and 1. 5 for the zeroth-, first-, and second-order cumulants, respectively. We, furthermore, construct estimators for the radius of convergence of the Taylor series of the pressure. In the vicinity of the pseudocritical temperature T₂156. 5 MeV, we find ₁/T2. 9 at vanishing strangeness chemical potential and somewhat larger values for strangeness neutral matter. These estimates are temperature dependent and range from ₁/T2. 2 at T=135 MeV to ₁/T3. 2 at T=165 MeV. The estimated radius of convergences is the same for any higher-order cumulant.
Bollweg et al. (Thu,) studied this question.