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W2321940105 abstract "Lattice calculations of the QCD trace anomaly at temperatures $T<160$ MeV have been shown to match hadron resonance gas model calculations, which include an exponentially rising hadron mass spectrum. In this paper we perform a more detailed comparison of the model calculations to lattice data that confirms the need for an exponentially increasing density of hadronic states. Also, we find that the lattice data is compatible with a hadron density of states that goes as $rho(m) sim m^{-a}exp(m/T_H) $ at large $m$ with $a> 5/2$ (where $T_H sim 167$ MeV). With this specific subleading contribution to the density of states, heavy resonances are most likely undergo 2-body decay (instead of multi-particle decay), which facilitates their inclusion into hadron transport codes. Moreover, estimates for the shear viscosity and the shear relaxation time coefficient of the hadron resonance model computed within the excluded volume approximation suggest that these transport coefficients are sensitive to the parameters that define the hadron mass spectrum." @default.
W2321940105 created "2016-06-24" @default.
W2321940105 creator A5008152614 @default.
W2321940105 creator A5022830262 @default.
W2321940105 creator A5081312605 @default.
W2321940105 date "2012-08-27" @default.
W2321940105 modified "2023-09-24" @default.
W2321940105 title "Hadron mass spectrum and the shear viscosity to entropy density ratio of hot hadronic matter" @default.
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W2321940105 doi "https://doi.org/10.1103/physrevc.86.024913" @default.
W2321940105 hasPublicationYear "2012" @default.
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