Numerical model for tomographic image formation in transmission x-ray microscopy | Zendy

Michael Bertilson | Zendy; Olov von Hofsten | Zendy; Hans M. Hertz | Zendy; Ulrich Vogt | Zendy

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Numerical model for tomographic image formation in transmission x-ray microscopy

Author(s) -

Michael Bertilson,

Olov von Hofsten,

Hans M. Hertz,

Ulrich Vogt

Publication year - 2011

Publication title -

optics express

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.394

H-Index - 271

ISSN - 1094-4087

DOI - 10.1364/oe.19.011578

Subject(s) - optics , ray tracing (physics) , tomographic reconstruction , microscope , microscopy , coherence (philosophical gambling strategy) , optical coherence tomography , focus (optics) , attenuation coefficient , ptychography , tomography , fourier transform , image formation , physics , diffraction , computer science , image (mathematics) , computer vision , quantum mechanics

We present a numerical image-formation model for investigating the influence of partial coherence, sample thickness and depth-of-focus on the accuracy of tomographic reconstructions in transmission x-ray microscopes. The model combines wave propagation through the object by finite difference techniques with Fourier methods. We include a ray-tracing model to analyse the origin of detrimental stray light in zone plate-based x-ray microscopes. These models allow optimization of x-ray microscopy systems for quantitative tomographic imaging of thick objects. Results show that both the depth-of-focus and the reconstructed local absorption coefficient are highly dependent on the degree of coherence of the optical system.

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