Dual-beam X-ray nano-holotomography

Flenner, Silja; Kubec, Adam; Hagemann, Johannes; Greving, Imke; David, Christian
doi:10.1107/S1600577524003801
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000611275 1001_ $$0P:(DE-H253)PIP1030015$$aFlenner, Silja$$b0$$eCorresponding author
000611275 245__ $$aDual-beam X-ray nano-holotomography
000611275 260__ $$bWiley-Blackwell$$c2024
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000611275 500__ $$aThis research was supported in part through the Maxwellcomputational resources operated at DESY. Funding isacknowledged from Deutsche Forschungsgemeinschaft (grantNo. 192346071).
000611275 520__ $$aNanotomography with hard X-rays is a widely used technique for high-resolution imaging, providing insights into the structure and composition of various materials. In recent years, tomographic approaches based on simultaneous illuminations of the same sample region from different angles by multiple beams have been developed at micrometre image resolution. Transferring these techniques to the nanoscale is challenging due to the loss in photon flux by focusing the X-ray beam. We present an approach for multi-beam nanotomography using a dual-beam Fresnel zone plate (dFZP) in a near-field holography setup. The dFZP generates two nano-focused beams that overlap in the sample plane, enabling the simultaneous acquisition of two projections from slightly different angles. This first proof-of-principle implementation of the dual-beam setup allows for the efficient removal of ring artifacts and noise using machine-learning approaches. The results open new possibilities for full-field multi-beam nanotomography and pave the way for future advancements in fast holotomography and artifact-reduction techniques. 
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