Constraints on s- s asymmetry of the proton in chiral effective theory

Abstract

We compute the s- s asymmetry in the proton in chiral effective theory, using phenomenological constraints based upon existing data. Unlike previous meson cloud model calculations, which accounted for kaon loop contributions with on-shell intermediate states alone, this work includes off-shell terms and contact interactions, which impact the shape of the s- s difference. We identify a valence-like component of s(x) which is balanced by a δ-function contribution to s(x) at x=0, so that the integrals of s and s over the experimentally accessible region x > 0 are not equal. Using a regularization procedure that preserves chiral symmetry and Lorentz invariance, we find that existing data limit the integrated value of the second moment of the asymmetry to the range -0.07 × 10-3 ≤ x(s- s) ≤ 1.12 × 10-3 at a scale of Q2=1 GeV2. This is too small to account for the NuTeV anomaly and of the wrong sign to enhance it.