Kaon electromagnetic form factors in dispersion theory

Abstract

The electromagnetic form factors of charged and neutral kaons are strongly constrained by their low-energy singularities, in the isovector part from two-pion intermediate states and in the isoscalar contribution in terms of ω and φ residues. The former can be predicted using the respective ππ K K partial-wave amplitude and the pion electromagnetic form factor, while the latter parameters need to be determined from electromagnetic reactions involving kaons. We present a global analysis of time- and spacelike data that implements all of these constraints. The results enable manifold applications: kaon charge radii, elastic contributions to the kaon electromagnetic self energies and corrections to Dashen's theorem, kaon boxes in hadronic light-by-light (HLbL) scattering, and the φ region in hadronic vacuum polarization (HVP). Our main results are: r2c=0.359(3)\,fm2, r2n=-0.060(4)\,fm2 for the charged and neutral radii, ε=0.63(40) for the elastic contribution to the violation of Dashen's theorem, aμK-box=-0.48(1)× 10-11 for the charged kaon box in HLbL scattering, and aμHVP[K+K-, ≤ 1.05\,GeV]=184.5(2.0)× 10-11, aμHVP[KSKL, ≤ 1.05\,GeV]=118.3(1.5)× 10-11 for the HVP integrals around the φ resonance. The global fit to K K gives Mφ=1019.479(5)\,MeV, φ=4.207(8)\,MeV for the φ resonance parameters including vacuum-polarization effects.