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Integrated Differential Phase Contrast (IDPC)-STEM Utilizing a Multi-Sector Detector for Imaging Thick Samples

Zhongbo Li, Johannes Biskupek, Ute Kaiser, Harald Rose

2022Microscopy and Microanalysis22 citationsDOIOpen Access PDF

Abstract

The integrated differential phase contrast (IDPC) method is useful for generating the potential map of a thin sample. We evaluate theoretically the potential of IDPC imaging for thick samples by varying the focus at different sample thicknesses. Our calculations show that high defocus values result in enhanced anisotropy of the contrast transfer function (CTF) and uninterpretable images, if a quadrant detector is applied. We further show that applying a multi-sector detector can result in an almost isotropic CTF. By sector number-dependent calculations for both Cc/C3-corrected and C3-corrected scanning transmission electron microscopy (STEM), we show that the increase of detector sectors not only removes the anisotropy of the CTF, but also improves image contrast and resolution. For a proof-of-principle IDPC-STEM (uncorrected) experiment, we realize the functionality of a 12-sector detector from a physical quadrant detector and demonstrate the improvement in contrast and resolution on the example of InGaN/GaN quantum well structure.

Topics & Concepts

DetectorContrast transfer functionScanning transmission electron microscopyContrast (vision)IsotropyAnisotropyOpticsPhase-contrast imagingMaterials scienceSample (material)Optical transfer functionPhase contrast microscopyResolution (logic)PhysicsTransmission electron microscopyComputer scienceArtificial intelligenceThermodynamicsLens (geology)Spherical aberrationAdvanced X-ray Imaging TechniquesAdvanced Electron Microscopy Techniques and ApplicationsOptical Coatings and Gratings
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