Holographic Description of Chiral Symmetry Breaking in a Magnetic Field in 2+1 Dimensions with an Improved Dilaton

Abstract

We consider a holographic description of the chiral symmetry breaking in an external magnetic field in (2+1) -dimensional gauge theories from the softwall model using an improved dilaton field profile given by (z) = - kz2 + (k+k1)z2 (k2z2). We find inverse magnetic catalysis for B<Bc and magnetic catalysis for B>Bc, where Bc is the pseudocritical magnetic field. The transition between these two regimes is a crossover and occurs at B=Bc, which depends on the fermion mass and temperature. We also find spontaneous chiral symmetry breaking (the chiral condensate σ =0) at T=0 in the chiral limit (mq 0) and chiral symmetry restoration for finite temperatures. We observe that changing the k parameter of the dilaton profile only affects the overall scales of the system such as Bc and σ. For instance, by increasing k one sees an increase of Bc and σ. This suggests that increasing the parameters k1 and k2 will decrease the values of Bc and σ.