Inverse magnetic catalysis from the properties of the QCD coupling in a magnetic field

[1]  A. Ayala Magnetized effective QCD phase diagram , 2015, 1509.00663.

[2]  M. Loewe,et al.  Quark deconfinement and gluon condensate in a weak magnetic field from QCD sum rules , 2015, 1504.01308.

[3]  V. A. Miransky,et al.  Quantum field theory in a magnetic field: From quantum chromodynamics to graphene and Dirac semimetals , 2015, 1503.00732.

[4]  J. Pawlowski,et al.  Magnetic catalysis and inverse magnetic catalysis in QCD , 2015, 1502.08011.

[5]  M. Loewe,et al.  Finite temperature quark-gluon vertex with a magnetic field in the hard thermal loop approximation , 2014, 1410.6388.

[6]  X. Wen,et al.  Quark antiscreening at strong magnetic field and inverse magnetic catalysis , 2014, 1407.3503.

[7]  M. Loewe,et al.  Inverse magnetic catalysis in the linear sigma model , 2014, 1406.7408.

[8]  S. Rechenberger,et al.  Delayed Magnetic Catalysis , 2014, 1412.6025.

[9]  A. Tranberg,et al.  Phase diagram of QCD in a magnetic field , 2014, 1411.7176.

[10]  N. Sadooghi,et al.  Anomalous magnetic moment of hot quarks, inverse magnetic catalysis, and reentrance of the chiral symmetry broken phase , 2014, 1408.5457.

[11]  M. Loewe,et al.  Inverse magnetic catalysis for the chiral transition induced by thermo-magnetic effects on the coupling constant , 2014, 1406.3885.

[12]  T. Frederico,et al.  Inverse magnetic catalysis in the ( 2 + 1 ) -flavor Nambu–Jona-Lasinio and Polyakov–Nambu–Jona-Lasinio models , 2014, 1404.5577.

[13]  M. B. Pinto,et al.  Importance of asymptotic freedom for the pseudocritical temperature in magnetized quark matter , 2014, 1404.3931.

[14]  J. Schaffner-Bielich,et al.  A search for inverse magnetic catalysis in thermal quark–meson models , 2013, 1311.3964.

[15]  E. J. Ferrer,et al.  New look at the QCD ground state in a magnetic field , 2013, 1311.3400.

[16]  M. Loewe,et al.  Linear sigma model and the formation of a charged pion condensate in the presence of an external magnetic field , 2013, 1310.5789.

[17]  D. Menezes,et al.  Deconfinement and chiral restoration within the SU(3) Polyakov--Nambu--Jona-Lasinio and entangled Polyakov--Nambu--Jona-Lasinio models in an external magnetic field , 2013, 1305.4751.

[18]  Mei Huang,et al.  Inverse magnetic catalysis induced by sphalerons , 2013, 1305.1100.

[19]  Nan Su,et al.  The quark mass gap in a magnetic field , 2012, 1211.7318.

[20]  Y. Hidaka,et al.  Magnetic catalysis versus magnetic inhibition. , 2012, Physical review letters.

[21]  J. Noronha,et al.  Large $N_c$ Deconfinement Transition in the Presence of a Magnetic Field , 2012, 1207.7094.

[22]  Z. Fodor,et al.  QCD quark condensate in external magnetic fields , 2012, 1206.4205.

[23]  E. Fraga,et al.  Phase diagram of hot QCD in an external magnetic field: Possible splitting of deconfinement and chiral transitions , 2010, 1004.2712.

[24]  E. J. Ferrer,et al.  Dynamically generated anomalous magnetic moment in massless QED , 2009, 0905.1733.

[25]  E. J. Ferrer,et al.  Dynamically induced Zeeman effect in massless QED. , 2008, Physical review letters.

[26]  N. Agasian,et al.  Quark-hadron phase transition in a magnetic field , 2008 .

[27]  E. Fraga,et al.  Chiral transition in a strong magnetic background , 2008, 0804.1452.

[28]  Elizabeth S. Werbos Chiral condensate in a constant electromagnetic field at O ( p 6 ) , 2007, 0711.2635.

[29]  David A. McGady,et al.  Chiral condensate in a constant electromagnetic field , 2007, 0706.3208.

[30]  V. A. Miransky,et al.  Magnetic catalysis and anisotropic confinement in QCD , 2002, hep-ph/0205348.

[31]  J. Tseng,et al.  Weak-field expansion for processes in a homogeneous background magnetic field , 1999, hep-th/9912134.

[32]  N. Agasian,et al.  The quark and gluon condensates and low-energy QCD theorems in a magnetic field , 1999, hep-ph/9911254.

[33]  A. Smilga,et al.  Quark condensate in a magnetic field , 1997, hep-ph/9703201.

[34]  Julian Schwinger,et al.  On gauge invariance and vacuum polarization , 1951 .