Sub-Ångstrom electric field measurements on a universal detector in a scanning transmission electron microscope

Jordan A. Hachtel, Juan Carlos Idrobo, Miaofang Chi

Research output: Contribution to journalArticlepeer-review

93 Scopus citations

Abstract

Scanning transmission electron microscopy (STEM) excels in accessing atomic-scale structure and chemistry. Enhancing our ability to directly image the functionalities of local features in materials has become one of the most important topics in the future development of STEM. Recently, differential phase contrast (DPC) imaging has been utilized to map the internal electric and magnetic fields in materials from nanoscale features such as p–n junctions, skyrmions, and even from individual atoms. Here, we use an ultra-low noise SCMOS detector in as the diffraction plane camera to collect four-dimensional (4D) datasets. The high angular resolution, efficient high-SNR acquisition, and modifiability of the camera allow it to function as a universal detector, where STEM imaging configurations, such as DPC, bright field, annular bright field, and annular dark field can all be reconstructed from a single 4D dataset. By examining a distorted perovskite, DyScO 3 , which possesses projected lattice spacings as small as 0.83 Å, we demonstrate DPC spatial resolution almost reaching the information limit of a 100 keV electron beam. In addition, the perovskite has ordered O-coordinations with alternating octahedral tilts, which can be quantitatively measured with single degree accuracy by taking advantage of DPC’s sensitivity to light atoms. The results, acquired on a standard Ronchigram camera as opposed to a specialized DPC detector, open up new opportunities to understand and design functional materials and devices that involve lattice and charge coupling at nano- and atomic-scales.

Original languageEnglish
Article number10
JournalAdvanced Structural and Chemical Imaging
Volume4
Issue number1
DOIs
StatePublished - Dec 1 2018

Funding

This research was supported by the Center for Nanophase Materials Sciences, which is a Department of Energy Office of Science User Facility. We also thank Ondrej Krivanek at Nion Company for helpful discussions about the parameters of the CMOS camera, as well as Colin Ophus at Lawrence Berkley National Laboratory and Ivan Lazić at Thermo Fisher Scientific for helpful discussions on the potential reconstruction.

Keywords

  • 4D STEM
  • Differential phase contrast
  • Octahedral tilts
  • Sub-Ångstrom resolution

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