QCD phase transition with chiral quarks and physical quark masses

QCD phase transition with chiral quarks and physical quark masses

We report on the first lattice calculation of the QCD phase transition using chiral fermions with physical quark masses. This calculation uses 2+1 quark flavors, spatial volumes between (4 fm)(3) and (11 fm)(3) and temperatures between 139 and 196 MeV. Each temperature is calculated at a single latt...

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Veröffentlicht in:Physical review letters 2014-08, Vol.113 (8), p.082001-082001, Article 082001
Hauptverfasser: Bhattacharya, Tanmoy, Buchoff, Michael I, Christ, Norman H, Ding, H-T, Gupta, Rajan, Jung, Chulwoo, Karsch, F, Lin, Zhongjie, Mawhinney, R D, McGlynn, Greg, Mukherjee, Swagato, Murphy, David, Petreczky, P, Renfrew, Dwight, Schroeder, Chris, Soltz, R A, Vranas, P M, Yin, Hantao
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container_end_page 082001
container_issue 8
container_start_page 082001
container_title Physical review letters
container_volume 113
creator Bhattacharya, Tanmoy
Buchoff, Michael I
Christ, Norman H
Ding, H-T
Gupta, Rajan
Jung, Chulwoo
Karsch, F
Lin, Zhongjie
Mawhinney, R D
McGlynn, Greg
Mukherjee, Swagato
Murphy, David
Petreczky, P
Renfrew, Dwight
Schroeder, Chris
Soltz, R A
Vranas, P M
Yin, Hantao
description We report on the first lattice calculation of the QCD phase transition using chiral fermions with physical quark masses. This calculation uses 2+1 quark flavors, spatial volumes between (4 fm)(3) and (11 fm)(3) and temperatures between 139 and 196 MeV. Each temperature is calculated at a single lattice spacing corresponding to a temporal Euclidean extent of N(t) = 8. The disconnected chiral susceptibility, χ(disc) shows a pronounced peak whose position and height depend sensitively on the quark mass. We find no metastability near the peak and a peak height which does not change when a 5 fm spatial extent is increased to 10 fm. Each result is strong evidence that the QCD "phase transition" is not first order but a continuous crossover for m(π) = 135 MeV. The peak location determines a pseudocritical temperature T(c) = 155(1)(8) MeV, in agreement with earlier staggered fermion results. However, the peak height is 50% greater than that suggested by previous staggered results. Chiral SU(2)(L) × SU(2)(R) symmetry is fully restored above 164 MeV, but anomalous U(1)(A) symmetry breaking is nonzero above T(c) and vanishes as T is increased to 196 MeV.
doi_str_mv 10.1103/PhysRevLett.113.082001
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