The Upsilon spectrum and mb from full lattice QCD
Abstract
We show results for the Upsilon spectrum calculated in lattice QCD including for the first time vacuum polarization effects for light u and d quarks as well as s quarks. We use gluon field configurations generated by the MILC collaboration. The calculations compare the results for a variety of u and d quark masses, as well as making a comparison to quenched results (in which quark vacuum polarisation is ignored) and results with only u and d quarks. The b quarks in the Upsilon are treated in lattice Nonrelativistic QCD through NLO in an expansion in the velocity of the b quark. We concentrate on accurate results for orbital and radial splittings where we see clear agreement with experiment once u, d and s quark vacuum polarisation effects are included. This now allows a consistent determination of the parameters of QCD. We demonstrate this consistency through the agreement of the Upsilon and B spectrum using the same lattice bare b quark mass. A one-loop matching to continuum QCD gives a value for the b quark mass in full lattice QCD for the first time. We obtain mbMS(mbMS) = 4.4(3) GeV. We are able to give physical results for the heavy quark potential parameters, r0 = 0.469(7) fm and r1 = 0.321(5) fm. Results for the fine structure in the spectrum and the Upsilon leptonic width are also presented. We predict the Upsilon - etab splitting to be 61(14) MeV, the Upsilon - etab splitting as 30(19) MeV and the splitting between the hb and the spin-average of the chib states to be less than 6 MeV. Improvements to these calculations that will be made in the near future are discussed.
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