2021
DOI: 10.1002/mp.15241
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X‐ray bi‐prism interferometry—A design study of proposed novel hardware

Abstract: Purpose: Advances in X-ray phase-contrast imaging can obtain excellent soft-tissue contrast of phase-shift, attenuation, and small angle scatter. Here we present fringe patterns for different design parameters of Xray bi-prism interferometry imaging systems. Our aim is to develop bi-prism interferometry imaging systems with excellent polychromatic performance that produce high-contrast fringes with spatially incoherent X-ray illumination. We also introduce a novel X-ray tube design that uses temporal multiplex… Show more

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Cited by 2 publications
(2 citation statements)
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References 40 publications
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“…In our simulations of this previous work, we used a wave optics approach to simulate the projections; whereas, in the present work we did not simulate a specific imaging modality but evaluated our filtered back-projection algorithm by numerically approximating the projections of a generic numerical tensor field and a diffusion tensor field of an excised human heart. Our future interests involve developing algorithms to directly reconstruct the tensor representation of small-angle scatter using X-ray bi-prism interferometry [96]. This interest is heightened by the fact that from the work of [15] it is appropriate to represent small-angle scatter as a second rank tensor of which one can measure longitudinal and transvers scalar projections of the tensor representation of small-angle scatter using X-ray darkfield imaging.…”
Section: ) Diffusion Tensor Tomography Magnetic Resonancementioning
confidence: 99%
“…In our simulations of this previous work, we used a wave optics approach to simulate the projections; whereas, in the present work we did not simulate a specific imaging modality but evaluated our filtered back-projection algorithm by numerically approximating the projections of a generic numerical tensor field and a diffusion tensor field of an excised human heart. Our future interests involve developing algorithms to directly reconstruct the tensor representation of small-angle scatter using X-ray bi-prism interferometry [96]. This interest is heightened by the fact that from the work of [15] it is appropriate to represent small-angle scatter as a second rank tensor of which one can measure longitudinal and transvers scalar projections of the tensor representation of small-angle scatter using X-ray darkfield imaging.…”
Section: ) Diffusion Tensor Tomography Magnetic Resonancementioning
confidence: 99%
“…Wavefront division methods are traditional and established concepts in interferometric approaches that can be tracked over a long time [1]. Starting already with Youngs double slit experiments they can be continued with (bi-)prism based WD configurations, meanwhile mostly applied for X-ray or electron beam interferometry [2], [3] or in holography [4]. From a wider point of view also (versions of) laser Doppler velocimetry [5], phase contrast microscopy [6], and wavefront sensors [7] can be assigned to such WD-based sensing methods.…”
Section: Introductionmentioning
confidence: 99%