Terrace effects in grazing-incidence fast atom diffraction from a LiF(001) surface

TL;DR

This study investigates how surface defects like terraces affect grazing-incidence fast atom diffraction patterns on LiF(001), revealing potential for using GIFAD to characterize surface imperfections.

Contribution

The paper provides a theoretical analysis of how different types of terrace defects influence GIFAD patterns on LiF(001), highlighting their potential for surface defect characterization.

Findings

Outward transverse steps create diffuse background above the Laue circle with additional peaks.

Inward transverse steps produce weaker background below the Laue circle.

Parallel steps cause asymmetric angular distributions confined to the Laue circle.

Abstract

The effect produced by surface defects on grazing-incidence fast atom diffraction (GIFAD) patterns is studied by considering the presence of terraces in a LiF(001) sample. For helium atoms impinging along the <110> direction of the LiF surface, we analyze the influence of a monolayer terrace with its edge oriented parallel or perpendicular to the axial channel. We found that the presence of an outward transverse step introduces a diffuse background above the Laue circle, which displays additional peaked structures. For inward transverse steps, instead, such a background is placed below the Laue circle, showing a much weaker intensity. On the other hand, parallel steps give rise to asymmetric angular distributions, which are completely confined to the Laue circle. Therefore, these theoretical results suggest that GIFAD might be used to characterize terrace defects.