2022
DOI: 10.1364/ol.445802
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Tomographic phase and attenuation extraction for a sample composed of unknown materials using x-ray propagation-based phase-contrast imaging

Abstract: Propagation-based phase-contrast x-ray imaging (PB-PCXI) generates image contrast by utilizing sample-imposed phase-shifts. This has proven useful when imaging weakly attenuating samples, as conventional attenuation-based imaging does not always provide adequate contrast. We present a PB-PCXI algorithm capable of extracting the x-ray attenuation   β and refraction  δ , components of the complex refractive index of distinct materials within an unknown sample. The method involves curve fitt… Show more

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Cited by 7 publications
(3 citation statements)
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“…The benefit of the latter is that no gratings are necessary to measure the phase shift. For this reason, propagation-based imaging is very powerful and widely used in X-ray imaging (Snigirev et al, 1995;Alloo et al, 2022;Bidola et al, 2017). It has also been exploited in neutron imaging, where it has been used to detect cracks in aluminium (Fiori et al, 2006) and investigate pores in bone (Østergaard et al, 2023a,b).…”
Section: Introductionmentioning
confidence: 99%
“…The benefit of the latter is that no gratings are necessary to measure the phase shift. For this reason, propagation-based imaging is very powerful and widely used in X-ray imaging (Snigirev et al, 1995;Alloo et al, 2022;Bidola et al, 2017). It has also been exploited in neutron imaging, where it has been used to detect cracks in aluminium (Fiori et al, 2006) and investigate pores in bone (Østergaard et al, 2023a,b).…”
Section: Introductionmentioning
confidence: 99%
“…To this end, it is by now well appreciated that propagation-based x-ray phase-contrast tomography (XPCT) offers a unique potential to extend histology and pathohistology. It promises a scalable, isotropic resolution without destructive slicing of the specimen and quantitative density-based contrast (Khimchenko et al 2016 Recent work has significantly improved the classic phase retrieval approaches (Paganin and Nugent 1998, Cloetens et al 1999, Alloo et al 2022, for example by nonlinear generalizations and Tikhonov regularization (Lohse et al 2020, Huhn et al 2022. Furthermore, scans with highly coherent synchrotron radiation both in the parallel beam settings with high resolution scintillator-based detector systems, and in magnifying cone-beam settings now routinely reach the micron and sub-micron resolution range, respectively, down to voxel sizes around 100 nm, which can even be implemented in the same instrument (Frohn et al 2020), and at least partly in high throughput (by continuous scans and detector readout).…”
Section: Introductionmentioning
confidence: 99%
“…The benefit of the latter is that no gratings or other specialized elements are needed to measure the phase shift. Therefore, propagation-based phase-contrast imaging has evolved into a very powerful tool in X-ray imaging (Alloo et al, 2022;Bidola et al, 2017;Wieland et al, 2021;Yu et al, 2021) but has only been investigated for neutrons in a very few cases (Allman et al, 2000;Jacobson et al, 2004;Lehmann et al, 2005;McMahon et al, 2003).…”
Section: Introductionmentioning
confidence: 99%