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    Area of Science:

    • Advanced imaging techniques
    • X-ray microscopy
    • Phase-contrast imaging

    Background:

    • High-resolution 3D imaging via nano-holotomography traditionally requires multiple sample-to-detector distances.
    • This multi-distance approach limits temporal resolution, hindering operando studies.
    • Sample shifting introduces reconstruction complexities, including alignment and magnification correction.

    Purpose of the Study:

    • To develop and validate a novel single-distance approach for phase-contrast 3D imaging.
    • To overcome the temporal resolution limitations of traditional multi-distance methods.
    • To enable artifact-free reconstructions for dynamic experiments.

    Main Methods:

    • Utilizing coded apertures to structure beam illumination during sample rotation.
    • Implementing a joint reconstruction scheme integrating phase retrieval with 3D tomography.
    • Validating the approach through simulations.

    Main Results:

    • Demonstrated a feasible single-distance method for nano-holotomography.
    • Achieved artifact-free reconstructions from a single distance.
    • Significantly improved temporal resolution compared to multi-distance techniques.

    Conclusions:

    • The proposed single-distance method enhances temporal resolution for 3D imaging.
    • This technique is suitable for dynamic operando studies.
    • Coded apertures and joint reconstruction offer a promising alternative for advanced tomography.