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Literature DB >> 23931384

Thermal magnetic field noise limits resolution in transmission electron microscopy.

Stephan Uhlemann¹, Heiko Müller, Peter Hartel, Joachim Zach, Max Haider.

Abstract

The resolving power of an electron microscope is determined by the optics and the stability of the instrument. Recently, progress has been obtained towards subångström resolution at beam energies of 80 kV and below but a discrepancy between the expected and achieved instrumental information limit has been observed. Here we show that magnetic field noise from thermally driven currents in the conductive parts of the instrument is the root cause for this hitherto unexplained decoherence phenomenon. We demonstrate that the deleterious effect depends on temperature and at least weakly on the type of material.

Year: 2013 PMID： 23931384 DOI： 10.1103/PhysRevLett.111.046101

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

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4. Surface Thermo-Dynamic Characterization of Poly (Vinylidene Chloride-Co-Acrylonitrile) (P(VDC-co-AN)) Using Inverse-Gas Chromatography and Investigation of Visual Traits Using Computer Vision Image Processing Algorithms.

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Thermal magnetic field noise limits resolution in transmission electron microscopy.

1. Microscopy: Hasten high resolution.

2. Electron Ptychographic Diffractive Imaging of Boron Atoms in LaB₆ Crystals.

3. Non-diffracting multi-electron vortex beams balancing their electron-electron interactions.

4. Surface Thermo-Dynamic Characterization of Poly (Vinylidene Chloride-Co-Acrylonitrile) (P(VDC-co-AN)) Using Inverse-Gas Chromatography and Investigation of Visual Traits Using Computer Vision Image Processing Algorithms.

5. Accuracy of surface strain measurements from transmission electron microscopy images of nanoparticles.

6. Electron ptychographic microscopy for three-dimensional imaging.

7. Mixed-state electron ptychography enables sub-angstrom resolution imaging with picometer precision at low dose.