Baryon sigma terms in SU(3) BChPT x 1/Nc

Abstract

ChPT and the 1/Nc expansion provide systematic frameworks for the strong interactions at low energy. A combined framework of both expansions has been developed and applied for baryons with three light-quark-flavors. The small scale expansion of the combined approach is identified as the -expansion, in which the power counting of the expansions is linked according to O(p)=O(1/Nc)=O(). The physical baryon masses as well as lattice QCD baryon masses for different quark mass masses are analyzed to O(3) in that framework. σ terms are addressed using the Feynman Hellmann theorem. For the nucleon, a useful connection between the deviation of the Gell-Mann-Okubo relation and the σ term σ8N associated with the scalar density u u+ d d-2 s s is identified. In particular, the deviation from the tree level relation σ8N= 13(2 mN-m-m), which gives rise to the so called σ-term puzzle, is studied in the -expansion. A large correction non-analytic in results for that relation, making plausible the resolution of the puzzle. Issues with the determination of the strangeness σ terms are discussed, emphasizing the need for lattice calculations at smaller ms for better understanding the range of validity of the effective theory. The analysis presented here leads to σπ N=69(10)~MeV and σπ =60(10)~MeV.