The adsorption of H atom on W low index surfaces was investigated with the 5-parameter Morse potential (5-MP) and the extended LEPS (constructed by 5-MP). All critical characteristics of this system were obtained. The calculated results show that H atom preoccupies the twofold bridge site of the subsurface on the intact W(100) surface at low coverage, and obtains the perpendicular vibration frequency of 156 meV. The H-atom adsorption on bridge site, top site and fivefold hollow site (the top site on the second W layer) were observed at high coverage. The preoccupancy of the subsurface adsorption site affects the critical characteristics of the adsorption sites adjacent to the subsurface adsorption site. On (110) surface H atom occupies the three-fold hollow site and produces the vibration frequency of 151 meV. On (111) surface there exist three stable adsorption states, the subsurface adsorption site H₁, the bridge sites and top sites, with the eigenvibration of 104, 200 and 259 meV, respectively. H atom preoccupies the H₁ site at low coverage.

Key words: H-W surface adsorption system, subsurface adsorption, 5-MP, LEPS