Flexible Application of Multispecies Plasma-FIB in Failure Analysis Workflows

Abstract Advanced semiconductor devices are disrupting traditional failure analysis workflows and creating demand for instrumentation that enables flexible capabilities to address these technology inflections. Such trends can be observed across multiple development areas, including faster processing, increased memory bandwidth, and power delivery. In every case, shrinking structures, complex packaging architecture, and advanced materials drive the need for efficient, precise targeting for regions of interest (ROI) over a wide range of length scales. An important example is the implementation of wide-bandgap (WBG) semiconductors, such as SiC and GaN, in advanced power devices. Various complexities are introduced, not only in device architecture, but also in defectivity analysis by conventional methods. As a result, high quality and high throughput failure analysis is achieved with specialized use of several plasma focused ion beam (PFIB) species best suited to these materials. Here we demonstrate such sample preparation for workflows involving electrical failure analysis (EFA) and localization, cross-sectional and volume analysis using scanning electron microscopy (SEM), as well as lamella preparation for transmission electron microscopy for physical failure analysis (PFA).