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Two-flavor Simulations of the rho(770) and the Role of the Kbar K Channel

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arxiv 1605.04823 v2 pith:NLTDYC4B submitted 2016-05-16 hep-lat nucl-th

Two-flavor Simulations of the rho(770) and the Role of the Kbar K Channel

classification hep-lat nucl-th
keywords extrapolationflavorlatticechannelchiraldatamesonsimulations
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The $\rho (770)$ meson is the most extensively studied resonance in lattice QCD simulations in two ($N_f=2$) and three ($N_f=2+1$) flavor formulations. We analyze $N_f=2$ lattice scattering data using unitarized Chiral Perturbation Theory, allowing not only for the extrapolation in mass but also in flavor, $N_f=2\to N_f=2+1$. The flavor extrapolation requires information from a global fit to $\pi\pi$ and $\pi K$ phase shifts from experiment. While the chiral extrapolation of $N_f=2$ lattice data leads to masses of the $\rho(770)$ meson far below the experimental one, we find that the missing $K\bar{K}$ channel is able to explain this discrepancy.

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