Lattice study on a tetra-quark state Tbb in the HAL QCD method

Abstract

We study a doubly-bottomed tetra-quark state (bbud) with quantum number I(JP)=0(1+), denoted by Tbb, in lattice QCD with the Non-Relativistic QCD (NRQCD) quark action for b quarks. Employing (2+1)-flavor gauge configurations at a ≈ 0.09 fm on 323× 64 lattices, we have extracted the coupled channel potential between BB* and B* B* in the HAL QCD method, which predicts an existence of a bound Tbb below the BB* threshold. By extrapolating results at mπ≈ 410,\, 570,\, 700 MeV to the physical pion mass mπ≈140 MeV, we obtain a biding energy with its statistical error as E binding (single) = 155(17) MeV and E binding (coupled) = 83(10) MeV, where ``coupled" means that effects due to virtual B* B* states are included through the coupled channel potential, while only a potential for a single BB* channel is used in the analysis for ``single". A comparison shows that the effect from virtual B* B* states is quite sizable to the binding energy of Tbb. We estimate systematic errors to be 20 MeV at most, which are mainly caused by the NRQCD approximation for b quarks.