Heteroepitaxial strain in alkali halide thin films: KCl on NaCl

We have pet-formed Monte Carlo simulations of the properties of a NaCl (001 ) surface covered by full or partial layers of KCl, for coverages up to 5 m onolayers (ML). A wide variety of structures of the film is found. For inte ger ML coverages we find the continuous, so-called floating mode rumple str ucture, as was previously found in the KBr/NaCl system. However, for a cove rage of similar to 2.1 ML, we find a discrete structure of periodicity 3:4 of small regularly spaced KCl pyramids. It has the same scattering characte ristics as the structure observed by Henzler et al. [Phys. Rev. B 52, 17 06 0 (1995)], but it is two-dimensional modulated, rather than the rowlike sta cking fault structure proposed by Henzler et al. Also, at a coverage of sim ilar to 0.8 ML there is a stable 3:4 structure. Other structures are found at intermediate coverages, corresponding to regular arrays of dislocation l ines with periodicity 9:10. A further growth from such structures would giv e rise to growth of a similar to 5 degrees miscut KCl crystal relative to t he NaCl lattice. The reciprocal space patterns corresponding to the continu ous and the discrete film deformations are also calculated. [S0163-1829(99) 00947-9].