The vector coupling α V(r) and the scales r0,r1 from the bottomonium spectrum

Abstract

We study the universal static potential V st(r) and the force, which are fully determined by two fundamental parameters: the string tension σ=0.18 0.02 GeV2 and the QCD constants MS(nf), taken from pQCD, while the infrared (IR) regulator M B is taken from the background perturbation theory and expressed via the string tension. The vector couplings α V(r) in the static potential and α F(r) in the static force, as well as the characteristic scales, r1(nf=3) and r0(nf=3), are calculated and compared to lattice data. The result r0 MS(nf=3)=0.77 0.03, which agrees with the lattice data, is obtained for M B=(1.15 0.02) GeV. However, better agreement with the bottomonium spectrum is reached for a smaller MS(nf=3)=(325 15) MeV and the frozen value of αV=0.57 0.02. The mass splittings M(1D)- M(1P) and M(2P)- M(1P) are shown to be sensitive to the IR regulator used. The masses M(1\,3D3)=10169(2) MeV and M(1\,3D1)=10155(3) MeV are predicted.