Finite volume effects in pion-kaon scattering and reconstruction of the kappa (800) resonance

Döring, M.; Meißner, U.-G.

doi:10.1007/JHEP01(2012)009

Journal Article

FZJ-2012-00574

Finite volume effects in pion-kaon scattering and reconstruction of the kappa (800) resonance

Döring, M. (Corresponding author) ; Meißner, U.-G.

2012
Springer Berlin

Journal of high energy physics 1201(1), -009 (2012) [10.1007/JHEP01(2012)009]

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Please use a persistent id in citations: http://hdl.handle.net/2128/13286 doi:10.1007/JHEP01(2012)009

Abstract: Simulating the kappa(800) on the lattice is a challenging task that starts to become feasible due to the rapid progress in recent-years lattice QCD calculations. As the resonance is broad, special attention to finite-volume effects has to be paid, because no sharp resonance signal as from avoided level crossing can be expected. In the present article, we investigate the finite volume effects in the framework of unitarized chiral perturbation theory using next-to-leading order terms. After a fit to meson-meson partial wave data, lattice levels for piK scattering are predicted. In addition, levels are shown for the quantum numbers in which the sigma(600), f_0(980), a_0(980), phi(1020), K*(892), and rho(770) appear, as well as the repulsive channels. Methods to extract the kappa(800) signal from the lattice spectrum are presented. Using pseudo-data, we estimate the precision that lattice data should have to allow for a clear-cut extraction of this resonance. To put the results into context, in particular the required high precision on the lattice data, the sigma(600), the P-wave resonances K*(892) and rho(770), and the repulsive piK, pipi phases are analyzed as well.

Keyword(s): finite size: effect ; perturbation theory: chiral ; higher-order: 1 ; pi K: scattering ; kappa meson ; quantum number ; partial wave ; low-energy constant ; pi K: phase shift ; pi pi: phase shift ; K*(892) ; rho(770) ; numerical calculations