Near-field ptychography: phase retrieval for inline holography using a structured illumination
Near-field ptychography: phase retrieval for inline holography using a structured illumination
Inline holography is a common phase-contrast imaging method which uses free-space propagation to encode the phase signal into measured intensities. However, quantitative retrieval of the sample's image remains challenging, imposing constraints on the nature of the sample or on the propagation distance. Here, we present a way of simultaneously retrieving the sample's complex-valued transmission function and the incident illumination function from near-field diffraction patterns. The procedure relies on the measurement diversity created by lateral translations of the sample with respect to a structured illumination. The reconstruction approach, in essence identical to that employed in ptychography, is applied to hard X-ray synchrotron measurements and to simulations. Compared to other inline holography techniques, we expect near-field ptychography to reduce reconstruction artefacts by factoring out wavefront imperfections and relaxing constraints on the sample's scattering properties, thus ultimately improving the robustness of propagation-based X-ray phase tomography.
Stockmar, Marco
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Cloetens, Peter
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Zanette, Irene
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Enders, Bjoern
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Dierolf, Martin
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Pfeiffer, Franz
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Thibault, Pierre
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31 May 2013
Stockmar, Marco
e01c79de-cd16-4c0c-9227-a49bd18a5138
Cloetens, Peter
8df4e9ca-0115-45ab-b442-cb06e8b4c99a
Zanette, Irene
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Enders, Bjoern
7e20a158-fc64-4108-ac88-c0eaf0a12f45
Dierolf, Martin
81ac7cac-fc48-4d39-8154-6788b06c2478
Pfeiffer, Franz
90bfb684-c442-458c-8f10-64d0e89cbef1
Thibault, Pierre
975a4c7b-6ca9-4958-b362-9eba10ab926b
Stockmar, Marco, Cloetens, Peter, Zanette, Irene, Enders, Bjoern, Dierolf, Martin, Pfeiffer, Franz and Thibault, Pierre
(2013)
Near-field ptychography: phase retrieval for inline holography using a structured illumination.
Scientific Reports, 3, [1927].
(doi:10.1038/srep01927).
Abstract
Inline holography is a common phase-contrast imaging method which uses free-space propagation to encode the phase signal into measured intensities. However, quantitative retrieval of the sample's image remains challenging, imposing constraints on the nature of the sample or on the propagation distance. Here, we present a way of simultaneously retrieving the sample's complex-valued transmission function and the incident illumination function from near-field diffraction patterns. The procedure relies on the measurement diversity created by lateral translations of the sample with respect to a structured illumination. The reconstruction approach, in essence identical to that employed in ptychography, is applied to hard X-ray synchrotron measurements and to simulations. Compared to other inline holography techniques, we expect near-field ptychography to reduce reconstruction artefacts by factoring out wavefront imperfections and relaxing constraints on the sample's scattering properties, thus ultimately improving the robustness of propagation-based X-ray phase tomography.
Text
srep01927
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Accepted/In Press date: 7 May 2013
Published date: 31 May 2013
Identifiers
Local EPrints ID: 430995
URI: http://eprints.soton.ac.uk/id/eprint/430995
ISSN: 2045-2322
PURE UUID: f3b6f833-3f1e-49fc-aa67-5c61d323b2d8
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Date deposited: 21 May 2019 16:30
Last modified: 16 Mar 2024 01:51
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Contributors
Author:
Marco Stockmar
Author:
Peter Cloetens
Author:
Irene Zanette
Author:
Bjoern Enders
Author:
Martin Dierolf
Author:
Franz Pfeiffer
Author:
Pierre Thibault
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