The curvature of the freeze-out line in heavy ion collisions

Authors :: Bazavov, A.
Ding, H. -T.
Hegde, P.
Kaczmarek, O.
Karsch, F.
Laermann, E.
Mukherjee, Swagato
Ohno, H.
Petreczky, P.
Schmidt, C.
Sharma, S.
Soeldner, W.
Wagner, M.
Bazavov, A.
Ding, H. -T.
Hegde, P.
Kaczmarek, O.
Karsch, F.
Laermann, E.
Mukherjee, Swagato
Ohno, H.
Petreczky, P.
Schmidt, C.
Sharma, S.
Soeldner, W.
Wagner, M.
Publication Year :: 2015
Abstract: We calculate the mean and variance of net-baryon number and net-electric charge distributions from Quantum Chromodynamics (QCD) using a next-to-leading order Taylor expansion in terms of temperature and chemical potentials. We compare these expansions with experimental data from STAR and PHENIX, determine the freeze-out temperature in the limit of vanishing baryon chemical potential, and, for the first time, constrain the curvature of the freeze-out line through a direct comparison between experimental data on net-charge fluctuations and a QCD calculation. We obtain a bound on the curvature coefficient, kappa_2^f < 0.011, that is compatible with lattice QCD results on the curvature of the QCD transition line.<br />Comment: 5 pages, 2 figures