The restriction on the strong coupling constant in the IR region from the 1D-1P splitting in bottomonium
Abstract
The b b spectrum is calculated with the use of a relativistic Hamiltonian where the gluon-exchange between a quark and an antiquark is taken as in background perturbation theory. We observed that the splittings 1= ( 1D)-b( 1P) and other splittings are very sensitive to the QCD constant V(nf) which occurs in the Vector scheme, and good agreement with the experimental data is obtained for V(2-loop, nf=5)= 325 10 MeV which corresponds to the conventional MS (2-loop, nf=5)= 238 7 MeV, αs(2-loop, MZ)=0.1189 0.0005, and a large freezing value of the background coupling: α crit (2-loop, q2=0)=α crit (2-loop, r ∞)=0.58 0.02. If the asymptotic freedom behavior of the coupling is neglected and an effective freezing coupling α static=const is introduced, as in the Cornell potential, then precise agreement with 1( exp) and 2( exp) can be reached for the rather large value α static =0.43 0.02. We predict a value for the mass M(2D) = 104512 MeV.
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