Abstract
We consider the two-flavor version of the extended linear sigma model (eLSM), which contains (pseudo)scalar and (axial-)vector quark-antiquark mesons, a scalar glueball (predominantly corresponding to $f_{0}(1710)$), as well as the nucleon and its chiral partner. We extend this model by the additional light scalar meson $f_{0}(500)$, predominantly a putative four-quark state. We investigate various interaction terms of the four-quark and glueball states with the other particles, some of which preserve and some of which explicitly break the $U(1)_{\textrm{A}}$ symmetry. We test our model by performing a global fit to masses and decay widths of the scalar resonances and pion-pion scattering lengths. We also discuss the influence of the scalar four-quark state and the glueball on the baryon sector by evaluating pion-nucleon scattering parameters. We find that the inclusion of $f_{0}(500)$ improves the description of pion-pion and pion-nucleon scattering lengths.
Highlights
A major task in low-energy hadron physics is the unified description of masses, decays, and scattering properties of all light hadrons below ≈2 GeV [1]
We present the results for the full three-scalar mixing problem, which includes the scalar glueball, the four-quark, and the quarkonium state
This allows us to estimate the importance of the scalar glueball for the calculation of the decay widths of the scalar-isoscalars and the pion-pion scattering lengths
Summary
A major task in low-energy hadron physics is the unified description of masses, decays, and scattering properties (including scattering lengths, phase shifts, etc.) of all light hadrons (both mesons and baryons) below ≈2 GeV [1]. This problem is exceptionally difficult, due to the large number of hadrons and the intrinsically strong interaction between them. Numerical simulations of QCD on the lattice are capable of reproducing a large part of the QCD spectrum There is still a long way to go towards an exhaustive description of all properties of low-energy QCD using lattice simulations
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