D-meson Nucleon Scattering from Lattice QCD at the Physical Point
Abstract
We report the first lattice QCD study of the s-wave scattering of the D-meson and the nucleon at the physical point, utilizing (2+1)-flavor configurations generated by the HAL QCD collaboration with a pion mass of mπ 137 MeV and a lattice spacing of a0.084 fm. By applying the HAL QCD method to the four-point correlation function of the DN system, we obtain a leading-order potential of the derivative expansion of the interaction kernel, which is then used to extract the s-wave phase shifts of low-energy DN scattering. Both the isospin I=0 and I=1 channels have a short-range repulsive core and a shallow attractive pocket in the intermediate to long-range region, though the I=0 channel is more attractive than the I=1 channel. We also observe that the DN potential exhibits more attraction than the KN potential, which is its analog in the strange sector. In terms of the s-wave phase shifts, the I=0 channel shows a weak attractive behavior in the low-energy region with a positive scattering length of 0.246 0.105 (-0.051+0.084) fm, whereas the I=1 channel shows repulsion with a negative scattering length of -0.086 0.050 (-0.001+0.037) fm. No bound states are found in both isospin channels, indicating the absence of a pentaquark state in the s-wave DN system.
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