Lattice study of $B\to Ï$ semileptonic decay using nonrelativistic lattice QCD
arXiv:hep-lat/9711031 · doi:10.1103/PhysRevD.58.014502
Abstract
We present an exploratory lattice study of $B\toÏ$ semileptonic decay form factors using the nonrelativistic lattice QCD for heavy quark with Wilson light quark on a $16^3 \times 32$ quenched lattice at $β=5.8$. The matrix elements are calculated at eight values of heavy quark mass in a range of $1.5-8$ GeV and with three values of light quark mass. The $1/m_B$ corrections to the matrix elements are found to be fairly small except for the spatial component proportional to the $B$ meson momentum. We find that the $q^2$ dependence of the form factor $f^+(q^2)$ near $q_{max}^2$ becomes much stronger for larger heavy quark mass, which may suggest the increase of a pole contribution. We perform a model independent fit of the form factors and study whether the $q^2$ dependence is consistent with the pole contribution. Although the soft pion theorem predicts $f^0(q_{max}^2)=f_B/f_Ï$ in the chiral limit, we observe a significant violation of this relation.
42 pages, Revised March 1998, REVTeX, 30 eps figures, uses psfig.sty