Strange and charmed hadron spectroscopy on a 32(3)x48 lattice at beta=6.3

The results of meson and baryon spectroscopy composed of charm and strange quarks are reported by the use of quenched Wilson fermions on a 32(3) x 48 lattice at beta = 6.3, Ground state hadrons composed of two or three quarks with different hopping parameters, in a region kappa = 0.13 to 0.15, are measured, It is found that their masses are well described by a quadratic polynomial in terms of multi-1/kappa variables in this region. Adjusting vector meson mass ratios between (s (s) over bar), (s (c) over bar) and (c (c) over bar), the hopping parameters of strange quark and charm quark are determined to be kappa(s) = 0.14999(22) and kappa(c) = 0.13548(82) without chiral extrapolation, Masses of not yet observed ssc, scc and ccc baryons in GeV are estimated to be 2.778 +/- 0.016 (ssc), 3.858 +/- 0.015 (scc) for (1/2)(+) and 2.813 +/- 0.167 (ssc), 3.869 +/- 0.055 (scc), 4.880 +/- 0.017 (ccc) for (3/2)(+). As for the meson spin splitting structure, the quenched Wilson spectrum is more degenerate in comparison with real hadrons, as already pointed out by many authors.