A dilaton-pion mass relation

Abstract

Recently, Golterman and Shamir presented an effective field theory which is supposed to describe the low-energy physics of the pion and the dilaton in an SU(Nc) gauge theory with Nf Dirac fermions in the fundamental representation. By employing this formulation with a slight but important modification, we derive a relation between the dilaton mass squared~mτ2, with and without the fermion mass~m, and the pion mass squared~mπ2 to the leading order of the chiral logarithm. This is analogous to a similar relation obtained by Matsuzaki and~Yamawaki on the basis of a somewhat different low-energy effective field theory. Our relation reads mτ2=mτ2|m=0+KNffπ2mπ2/(2fτ2)+O(mπ4 mπ2) with~K=9, where fπ and~fτ are decay constants of the pion and the dilaton, respectively. This mass relation differs from the one derived by Matsuzaki and~Yamawaki on the points that K=(3-γm)(1+γm), where γm is the mass anomalous dimension, and the leading chiral logarithm correction is~O(mπ2 mπ2). For~γm1, the value of the decay constant~fτ estimated from our mass relation becomes 50\% larger than fτ estimated from the relation of Matsuzaki and~Yamawaki.