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Zeiss Xradia 810 Ultra (nanoCT)

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Karlsruhe

NanoCT (Xradia Ultra 810 X-ray microscope) enables the non-destructive structural characterization of three-dimensional samples with resolution down to 50 nm. In this non-invasive X-ray microscopy technique, the sample is positioned in the focal spot of the X-ray beam and 2D X-ray radiographs of the sample are acquired at different angles. The transmitted X-rays are magnified by a Fresnel zone plate objective lens before reaching the X-ray camera (scintillator optically coupled to a CCD detector). For low absorption samples, a Zernike phase ring inserted into the beam path produce an edge enhancing phase contrast effect. Thus, the nanoCT can be adjusted for absorption and phase contrast and can be operated with a large field of view (FOV: 65 μm, resolution: 150 nm) or at high resolution (FOV: 16 μm, resolution: 50 nm). The 2D projections are then reconstructed which results in a visualization of the sample in 3D. Through further processing, the data can be segmented and quantified. The in situ nanomechanical testing device (with high mechanical stability and a maximum force of 0.8 N), allows to investigate the inner structure of materials under load. High quality nanotomography is very much dependent on the sample. Ideally, the sample is cylindrical, fits the field of view and its thickness is less than twice the X-ray absorption length of the sample material.

Acquisition Parameter:

Features

  • X-ray energy: 5.4 keV (Cr-anode)
  • Tomography contrasts:
    • Absorption contrast
    • Zernike phase contrast
  • Resolution:
    • High resolution (HRES): 50 nm
    • Low resolution LRES): 150 nm
  • Field of view: 16 µm (HRES), 65 μm (LRES)
  • Scanning angle range: 180°, 140° for in situ
  • in situ nanomechanical testing:
    • Maximum force: 0.8 N
    • Load modes: compression, indentation, tension

Limitations/constraints

  • Sample need to be stable under rotation and light wind
  • Sample properties:
    • Cylinder-shaped are preferred but not mandatory.
    • Thickness should be less than twice the X-ray absorption length of its material (X-ray absorption length can be calculated here).
    • Sample should fit the field of view (65 μm or 16 μm).

Access
Proposal based access by KMNFi proposal. Contact: rafaela.debastiani@kit.edu

Link: https://www.knmf.kit.edu
Zeiss Xradia 810 Ultra Image

Helmholtz Imaging spinning wheel

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