Thermodynamic properties of QCD in external magnetic fields

G. S. Bali; F. Bruckmann; M. Constantinou; M. Costa; G. Endrodi; Z. Fodor; S. D. Katz; S. Krieg; H. Panagopoulos; A. Schäfer; K. K. Szabó

Thermodynamic properties of QCD in external magnetic fields

G. S. Bali, F. Bruckmann, M. Constantinou, M. Costa, G. Endrodi, Z. Fodor, S. D. Katz, S. Krieg, H. Panagopoulos, A. Schäfer, K. K. Szabó

Physics

Research output: Contribution to journal › Conference article › peer-review

Abstract

We consider the effect of strong external electromagnetic fields on thermodynamic observables in QCD, through lattice simulations with 1+1+1 flavors of staggered quarks at physical quark masses. Continuum extrapolated results are presented for the light quark condensates and for their tensor polarizations, as functions of the temperature and the magnetic field. We find the light condensates to undergo inverse magnetic catalysis in the transition region, in a manner that the transition temperature decreases with growing magnetic field. We also compare the results to other approaches and lattice simulations. Furthermore, we relate the tensor polarization to the spin part of the magnetic susceptibility of the QCD vacuum, and show that this contribution is diamagnetic.

Original language	English (US)
Journal	Proceedings of Science
State	Published - 2012
Event	10th Conference on Quark Confinement and the Hadron Spectrum, Confinement 2012 - Munich, Germany Duration: Oct 8 2012 → Oct 12 2012

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title = "Thermodynamic properties of QCD in external magnetic fields",

abstract = "We consider the effect of strong external electromagnetic fields on thermodynamic observables in QCD, through lattice simulations with 1+1+1 flavors of staggered quarks at physical quark masses. Continuum extrapolated results are presented for the light quark condensates and for their tensor polarizations, as functions of the temperature and the magnetic field. We find the light condensates to undergo inverse magnetic catalysis in the transition region, in a manner that the transition temperature decreases with growing magnetic field. We also compare the results to other approaches and lattice simulations. Furthermore, we relate the tensor polarization to the spin part of the magnetic susceptibility of the QCD vacuum, and show that this contribution is diamagnetic.",

author = "Bali, {G. S.} and F. Bruckmann and M. Constantinou and M. Costa and G. Endrodi and Z. Fodor and Katz, {S. D.} and S. Krieg and H. Panagopoulos and A. Sch{\"a}fer and Szab{\'o}, {K. K.}",

year = "2012",

language = "English (US)",

journal = "Proceedings of Science",

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TY - JOUR

T1 - Thermodynamic properties of QCD in external magnetic fields

AU - Bali, G. S.

AU - Bruckmann, F.

AU - Constantinou, M.

AU - Costa, M.

AU - Endrodi, G.

AU - Fodor, Z.

AU - Katz, S. D.

AU - Krieg, S.

AU - Panagopoulos, H.

AU - Schäfer, A.

AU - Szabó, K. K.

PY - 2012

Y1 - 2012

N2 - We consider the effect of strong external electromagnetic fields on thermodynamic observables in QCD, through lattice simulations with 1+1+1 flavors of staggered quarks at physical quark masses. Continuum extrapolated results are presented for the light quark condensates and for their tensor polarizations, as functions of the temperature and the magnetic field. We find the light condensates to undergo inverse magnetic catalysis in the transition region, in a manner that the transition temperature decreases with growing magnetic field. We also compare the results to other approaches and lattice simulations. Furthermore, we relate the tensor polarization to the spin part of the magnetic susceptibility of the QCD vacuum, and show that this contribution is diamagnetic.

AB - We consider the effect of strong external electromagnetic fields on thermodynamic observables in QCD, through lattice simulations with 1+1+1 flavors of staggered quarks at physical quark masses. Continuum extrapolated results are presented for the light quark condensates and for their tensor polarizations, as functions of the temperature and the magnetic field. We find the light condensates to undergo inverse magnetic catalysis in the transition region, in a manner that the transition temperature decreases with growing magnetic field. We also compare the results to other approaches and lattice simulations. Furthermore, we relate the tensor polarization to the spin part of the magnetic susceptibility of the QCD vacuum, and show that this contribution is diamagnetic.

UR - http://www.scopus.com/inward/record.url?scp=84887562885&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=84887562885&partnerID=8YFLogxK

M3 - Conference article

AN - SCOPUS:84887562885

SN - 1824-8039

JO - Proceedings of Science

JF - Proceedings of Science

T2 - 10th Conference on Quark Confinement and the Hadron Spectrum, Confinement 2012

Y2 - 8 October 2012 through 12 October 2012

ER -

Thermodynamic properties of QCD in external magnetic fields

Abstract

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