Investigating the role of tetraquark operators in lattice QCD studies of the a0(980) and resonances

Abstract

The role of tetraquark operators in studying the isodoublet strange and isovector nonstrange a0(980) scalar mesons in lattice QCD is examined using an ensemble with mπ≈230 MeV and spatial extent L such that mπ L≈4.4. Hermitian correlation matrices using both single-meson, meson-meson, and tetraquark interpolating operators are used to extract the spectrum of finite-volume stationary states in the appropriate symmetry channels. Hundreds of local and extended tetraquark operators are explored. Determinations of the spectrum in each channel are found to be unreliable without the inclusion of at least one tetraquark operator. For example, the inclusion of tetraquark operators with isospin 1/2 and strangeness 1 quantum numbers reveals the existence of an additional energy level in the Kη sub-system below the Kη threshold. The implications of this on parametrizing the scattering K-matrix through a well-known quantization condition to extract properties of the and a0(980) scalar meson resonances are discussed.

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