English

Heavy Quark Spectroscopy and Matrix Elements: A Lattice Study using the Static Approximation

High Energy Physics - Lattice 2008-11-26 v2 High Energy Physics - Phenomenology

Abstract

We present results of a lattice analysis of the BB parameter, BBB_B, the decay constant fBf_B, and several mass splittings using the static approximation. Results were obtained for 60 quenched gauge configurations computed at β=6.2\beta=6.2 on a lattice size of 243×4824^3\times48. Light quark propagators were calculated using the O(a)O(a)-improved Sheikholeslami-Wohlert action. We find \Bbstat(mb)=0.69\er34(stat)\er21(syst)\Bbstat(m_b) = 0.69\er{3}{4} {\rm(stat)}\er{2}{1} {\rm(syst)}, corresponding to \Bbstat=1.02\er56\er32\Bbstat = 1.02\er{5}{6}\er{3}{2}, and \fbstat=266\err1820\err2827\mev\fbstat = 266\err{18}{20}\err{28}{27} \mev, fBs2BBs/fB2BB=1.34\er98\er53f_{B_s}^2 B_{B_s}/f_B^2 B_B = 1.34\er{9}{8}\er{5}{3}, where a variational fitting technique was used to extract \fbstat\fbstat. For the mass splittings we obtain MBsMBd=87\err1512\err612\mevM_{B_s}-M_{B_d} = 87\err{15}{12}\err{6}{12} \mev, MΛbMBd=420\errr10090\err3030\mevM_{\Lambda_b}-M_{B_d} = 420\errr{100}{90}\err{30}{30} \mev and MB2MB2=0.281\err1516\err4037\gev2M_{B^*}^2-M_B^2 = 0.281\err{15}{16}\err{40}{37} \gev^2. We compare different smearing techniques intended to improve the signal/noise ratio. From a detailed assessment of systematic effects we conclude that the main systematic uncertainties are associated with the renormalisation constants relating a lattice matrix element to its continuum counterpart. The dependence of our findings on lattice artefacts is to be investigated in the future.

Keywords

Cite

@article{arxiv.hep-lat/9508030,
  title  = {Heavy Quark Spectroscopy and Matrix Elements: A Lattice Study using the Static Approximation},
  author = {A. K. Ewing},
  journal= {arXiv preprint arXiv:hep-lat/9508030},
  year   = {2008}
}

Comments

40 pages, uuencoded compressed tar file, containing one LaTeX file and 14 postscript files (to be included with epsf). Minor change in the value of the B parameter. Contains corrected value for the B*-B mass splitting. Version accepted for publication in Phys. Rev. D