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Hauptverfasser: Mirone, Alessandro, Brunet, Joseph, Admans, Leandre, Boistel, Renaud, Sowinski, Morgane, Berruyer, Camille, Payno, Henri, Boller, Elodie, Paleo, Pierre, Walsh, Claire L., Lee, Peter D., Tafforeau, Paul
Format: Preprint
Veröffentlicht: 2023
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2311.14745
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author Mirone, Alessandro
Brunet, Joseph
Admans, Leandre
Boistel, Renaud
Sowinski, Morgane
Berruyer, Camille
Payno, Henri
Boller, Elodie
Paleo, Pierre
Walsh, Claire L.
Lee, Peter D.
Tafforeau, Paul
author_facet Mirone, Alessandro
Brunet, Joseph
Admans, Leandre
Boistel, Renaud
Sowinski, Morgane
Berruyer, Camille
Payno, Henri
Boller, Elodie
Paleo, Pierre
Walsh, Claire L.
Lee, Peter D.
Tafforeau, Paul
contents The evolution of synchrotrons towards higher brilliance beams has increased the possible sample-to-detector propagation distances for which the source confusion circle does not lead to geometrical blurring. This makes it possible to push near-field propagation driven phase contrast enhancement to the limit, revealing low contrast features which would otherwise remain hidden under an excessive noise. Until today this possibility was hindered, in many objects of scientific interest, by the simultaneous presence of strong phase gradient regions and low contrast features. The strong gradients, when enhanced with the now possible long propagation distances, induce such strong phase effects that the linearisation assumptions of current state-of-the-art single-distance phase retrieval filters are broken, and the resulting image quality is jeopardized. Here, we introduce a new iterative phase-retrieval algorithm and compare it with the Paganin phase-retrieval algorithm, in both the monochromatic and polychromatic cases, obtaining superior image quality. In the polychromatic case the comparison was done with an extrapolated Paganin algorithm obtained by reintroducing, into our phase retrieval algorithm, the linearization approximations underlying the Paganin forward model. Our work provides an innovative algorithm which efficiently performs the phase retrieval task over the entire near-field range, producing images of exceptional quality for mixed attenuation objects.
format Preprint
id arxiv_https___arxiv_org_abs_2311_14745
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Eikonal phase retrieval: Unleashing the fourth generation sources potential for enhanced propagation based tomography on biological samples
Mirone, Alessandro
Brunet, Joseph
Admans, Leandre
Boistel, Renaud
Sowinski, Morgane
Berruyer, Camille
Payno, Henri
Boller, Elodie
Paleo, Pierre
Walsh, Claire L.
Lee, Peter D.
Tafforeau, Paul
Medical Physics
Optics
The evolution of synchrotrons towards higher brilliance beams has increased the possible sample-to-detector propagation distances for which the source confusion circle does not lead to geometrical blurring. This makes it possible to push near-field propagation driven phase contrast enhancement to the limit, revealing low contrast features which would otherwise remain hidden under an excessive noise. Until today this possibility was hindered, in many objects of scientific interest, by the simultaneous presence of strong phase gradient regions and low contrast features. The strong gradients, when enhanced with the now possible long propagation distances, induce such strong phase effects that the linearisation assumptions of current state-of-the-art single-distance phase retrieval filters are broken, and the resulting image quality is jeopardized. Here, we introduce a new iterative phase-retrieval algorithm and compare it with the Paganin phase-retrieval algorithm, in both the monochromatic and polychromatic cases, obtaining superior image quality. In the polychromatic case the comparison was done with an extrapolated Paganin algorithm obtained by reintroducing, into our phase retrieval algorithm, the linearization approximations underlying the Paganin forward model. Our work provides an innovative algorithm which efficiently performs the phase retrieval task over the entire near-field range, producing images of exceptional quality for mixed attenuation objects.
title Eikonal phase retrieval: Unleashing the fourth generation sources potential for enhanced propagation based tomography on biological samples
topic Medical Physics
Optics
url https://arxiv.org/abs/2311.14745