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arxiv: 2311.02580 · v1 · pith:WSJHLGM3 · submitted 2023-11-05 · cond-mat.mtrl-sci · physics.app-ph· physics.data-an

High-resolution 3D phase-contrast imaging beyond the depth of field limit via ptychographic multi-slice electron tomography

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classification cond-mat.mtrl-sci physics.app-phphysics.data-an
keywords electronimagingdepthfieldlimitresolutionatomicbeen
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Resolving single atoms in large-scale volumes has been a goal for atomic resolution microscopy for a long time. Electron microscopy has come close to this goal using a combination of advanced electron optics and computational imaging algorithms. However, atomic-resolution 3D imaging in volumes larger than the depth of field limit of the electron optics has so far been out of reach. Electron ptychography, a computational imaging method allowing to solve the multiple-scattering problem from position- and momentum-resolved measurements, provides the opportunity to surpass this limit. Here, we experimentally demonstrate atomic resolution three-dimensional phase-contrast imaging in a volume surpassing the depth of field limits using multi-slice ptychographic electron tomography. We reconstruct tilt-series 4D-STEM measurements of a Co3O4 nanocube, yielding 1.75 {\AA} resolution in a reconstructed volume of (18.2nm)^3.

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