Quantitative Aspects of 3D Chemical Tomography in the Scanning Transmission Electron Microscope

Abstract: Modern fabrication techniques have enabled the production of ever smaller, ever more complex nanoscale architectures for the development of new technologies. This has created increased demand for robust characterization methods in order to advance our understanding of the relationship between structure, properties, and processing in such devices and systems. Electron tomography (ET) in the scanning transmission electron microscope (STEM) offers a method to reveal the 3-D structure within small volumes of mater… Show more

“…In this method, the center of mass of the cylinder is tracked as a function of tilt at three different locations along the specimen axis. By fitting the experimental path to the expected path with Sinogram Analysis, which determines the true axis of the tilt, the specimen could be properly aligned in the field of view of the image stack 12 , 13 Figure 1. shows a scanning transmission electron microcopy (STEM) tomography result from a 22-nm PMOS transistor.…”

Critical three-dimensional metrologies for emerging nanoelectronics

“…In this method, the center of mass of the cylinder is tracked as a function of tilt at three different locations along the specimen axis. By fitting the experimental path to the expected path with Sinogram Analysis, which determines the true axis of the tilt, the specimen could be properly aligned in the field of view of the image stack 12 , 13 Figure 1. shows a scanning transmission electron microcopy (STEM) tomography result from a 22-nm PMOS transistor.…”

Critical three-dimensional metrologies for emerging nanoelectronics