The N-induced reconstruction of Cu(111) has been studied using scanning tun
nelling microscopy (STM). The results fully support a model, previously pro
posed on the basis of qualitative interpretation of the LEED pattern, in wh
ich the outermost Cu atom layer adopts a distorted pseudo-(100) structure w
ith the adsorbed atomic N forming a c(2 x 2) periodicity on this reconstruc
ted Cu layer. Both the c(2 x 2) and (1 x 1) periodicities of this pseudo-(1
00) surface were imaged under different tip conditions; these show clearly
that there is no 'clock reconstruction' of the pseudo-(100) layer as report
ed for C on Ni(111). A periodic corrugation observed in the height of the r
econstructed phase has been modelled by a simple hard-sphere simulation of
the effects of the variations in local registry between the pseudo-(100) la
yer and the underlying (111) substrate based on a true (25 x 7 root 3)rect.
coincidence surface mesh. (C) 1999 Elsevier Science B.V. All rights reserv
ed.