The effect of W thickness on the interface Si-on-W, a LEIS and TEM study

Activity: Talk or presentationOral presentation

Description

W/Si thin-film multilayer structures are used in various applications such as X-ray, neutron, and extreme ultraviolet optics. The interfaces between the films play such a fundamental role in the performance of these structures that a sub-nanometer and non-destructive characterization of such interfaces is necessary, albeit challenging. In this study, we investigate the interface Si-on-W and the effect of W thickness on such an interface using low energy ion scattering (LEIS), and transmission electron microscopy (TEM). We extract the Si-to-W error-function-like compositional change to quantitatively compare the effective interface width measured by the different techniques. We demonstrate that, in the case of Si-on-W, the effective interface width measured by LEIS agrees with the values extracted from TEM analysis within a 0.1 nm error margin. Noting that TEM is a destructive method, these results exemplify the value of LEIS as analysis techniques for resolving thin film interfaces. Surprisingly, both techniques employed in the study show that a structure with 20 nm of W has a sharper Si-on-W interface compared to a structure with 4 nm of W, which we interpret as the effect of both the correlated roughness from the substrate − present in the case of 4 nm W − and the larger crystals − present in the W film in the case of 20 nm W- resulting in less intermixing. This directly shows the value of extracting exact interface widths for the analysis and understanding of thin film growth in multilayer systems.
Period4 Jun 2024
Event titleLEIS workshop 2024
Event typeWorkshop
LocationCzech RepublicShow on map
Degree of RecognitionInternational