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Paper detail

Chiral phase transition in a random matrix model with three flavors

The chiral phase transition in the conventional random matrix model is the second order in the chiral limit, irrespective of the number of flavors N_f, because it lacks the U_A(1)-breaking determinant interaction term. Furthermore, it predicts an unphysical value of zero for the topological susceptibility at finite temperatures. We propose a new chiral random matrix model which resolves these difficulties by incorporating the determinant interaction term within the instanton gas picture. The model produces a second-order transition for N_f=2 and a first-order transition for N_f=3, and recovers a physical temperature dependence of the topological susceptibility.

preprint2010arXivOpen access
Hirotsugu FujiiMunehisa OhtaniTakashi Sano
hep-phhep-lat
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Hirotsugu FujiiMunehisa OhtaniTakashi Sano

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