The Strangeness Magnetic Moment of the Proton in the Chiral Quark Model

TL;DR

This paper demonstrates that the strangeness magnetic moment of the proton is small, primarily due to kaon loop contributions, and aligns with experimental uncertainties within the chiral quark model framework.

Contribution

It provides a detailed calculation showing the smallness of the strangeness magnetic moment in the chiral quark model, emphasizing kaon loops and radiative transitions.

Findings

Net loop amplitude contribution is about -0.05.

Kaon loops dominate the strangeness magnetic moment.

Results agree with experimental uncertainty range.

Abstract

The strangeness magnetic moment of the proton is shown to be small in the chiral quark model. The dominant loop contribution is due to kaons. The K^* loop contributions are proportional to the difference between the strange and light constituent quark masses or $m_{K^*}^{-2}$ and therefore small. The loop fluctuations that involve radiative transitions between K^* mesons and kaons are small, when the cut-off scale in the loops is taken to be close to the chiral symmetry restoration scale. The net loop amplitude contribution to the strangeness magnetic moment of the proton is about -0.05, which falls within the uncertainty range of the experimental value.