Sea quark effects in B Spectroscopy and Decay Constants

Abstract

We present comprehensive results for the spectrum and decay constants of hadrons containing a single b quark. The heavy quark is simulated using an O(1/M) NRQCD action and the light quark using the O(a) tadpole-improved clover action on gauge configurations containing two degenerate flavours of sea quarks at βnf=2=5.6 provided by the HEMCGC collaboration. We present detailed results for the lower lying S and P wave B meson states and the b baryon. We find broad agreement with experiment. In addition, we present results for the pseudoscalar and, for the first time, the vector decay constants fully consistent to O(α/M): fB = 186(5)(stat)(19)(pert)(9)(disc)(13)(NRQCD)(+50)(a-1)MeV, fB* = 181(6) (stat)(18)(pert)(9)(disc)(13)(NRQCD)(+55)(a-1)MeV and fBs/fB = 1.14(2)(stat)(-2)(s). We present an investigation of sea quark effects in the B spectrum and decay constants. We compare our results with those from similar quenched simulations at βnf=0=6.0. For the spectrum, the quenched results reproduce the experimental spectrum well and there is no significant difference between the quenched and nf=2 results. For the decay constants, our results suggest that sea quark effects may be large. We find that fB increases by approximately 25% between nf=0 and nf=2.

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