Ak. Ewing et al., HEAVY-QUARK SPECTROSCOPY AND MATRIX-ELEMENTS - A LATTICE STUDY USING THE STATIC APPROXIMATION, Physical review. D. Particles and fields, 54(5), 1996, pp. 3526-3545
We present results of a lattice analysis of the B parameter B-B, the d
ecay constant f(B), and several mass splittings using the static appro
ximation. Results were obtained for 60 quenched gauge configurations c
omputed at beta=6.2 on a lattice size of 24(3) X 48. Light quark propa
gators were calculated using the O(a)-improved Sheikholeslami-Wohlert
action. We find -B(static)(m(b))=0.69(-4)(+3)(stat)(-1)(+2)(syst), cor
responding to B-B(static)=1.02(-6 -2)(+5 +3), f(B)(static)=266(-20 -27
)(+18 +28) MeV, and f(Bs)(2)B(Bs)/f(B)(2)B(B)=1.34(-8 -3)(+9 +5), wher
e a variational fitting technique was used to extract f(B)(static). Fo
r the mass splittings we obtain M(Bs)-M(Bd)=87(-12 -12)(+15 +6) MeV, M
(Lambda b)-M(Bd) =420(-90 -30)(+100 +30) MeV, and M(B)(2)-M(B*)(2)=0.
281(-16 -37)(+15 +40) GeV2. We compare different smearing techniques i
ntended to improve the signal/noise ratio. From a detailed assessment
of systematic effects, we conclude that the main systematic uncertaint
ies are associated with the renormalization constants relating a latti
ce matrix element to its continuum counterpart. The dependence of our
findings on lattice artifacts is to be investigated in the future.