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Main Authors: Perion, Paola, Magnin, Clara, Arfelli, Fulvia, Faure, Bertrand, Menk, Ralf Hendrik, Brun, Emmanuel
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2511.14886
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author Perion, Paola
Magnin, Clara
Arfelli, Fulvia
Faure, Bertrand
Menk, Ralf Hendrik
Brun, Emmanuel
author_facet Perion, Paola
Magnin, Clara
Arfelli, Fulvia
Faure, Bertrand
Menk, Ralf Hendrik
Brun, Emmanuel
contents Modulation-based imaging (MoBI) is an X-ray phase-contrast technique that uses an intensity modulator (or membrane) in the beam. Although MoBI can be performed in a single shot, multiple exposures are typically needed to improve the quality of the result. The membrane is typically moved using a regular stepping pattern for convenience; however, the impact of the membrane movement scheme on image quality has not been fully investigated yet. In this work, we explore optimized movement strategies aiming at improving MoBI performance. An experimental study tested optimization schemes based on global and local standard deviation metrics, and compared them with regular and random stepping motions. The results demonstrated superior contrast-to-noise ratio and reduced angular sensitivity in the optimized approaches compared to conventional stepping. These results were consistent across different membrane types, with honeycomb membranes showing the highest compatibility with the optimization procedure. Noise power spectrum analysis further validated the advantages of the optimized motion strategies. Overall, the results demonstrate that an optimized membrane movement can significantly improve MoBI image quality without increasing experimental complexity.
format Preprint
id arxiv_https___arxiv_org_abs_2511_14886
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Membrane stepping optimization in Modulation Based Imaging
Perion, Paola
Magnin, Clara
Arfelli, Fulvia
Faure, Bertrand
Menk, Ralf Hendrik
Brun, Emmanuel
Optics
Medical Physics
Modulation-based imaging (MoBI) is an X-ray phase-contrast technique that uses an intensity modulator (or membrane) in the beam. Although MoBI can be performed in a single shot, multiple exposures are typically needed to improve the quality of the result. The membrane is typically moved using a regular stepping pattern for convenience; however, the impact of the membrane movement scheme on image quality has not been fully investigated yet. In this work, we explore optimized movement strategies aiming at improving MoBI performance. An experimental study tested optimization schemes based on global and local standard deviation metrics, and compared them with regular and random stepping motions. The results demonstrated superior contrast-to-noise ratio and reduced angular sensitivity in the optimized approaches compared to conventional stepping. These results were consistent across different membrane types, with honeycomb membranes showing the highest compatibility with the optimization procedure. Noise power spectrum analysis further validated the advantages of the optimized motion strategies. Overall, the results demonstrate that an optimized membrane movement can significantly improve MoBI image quality without increasing experimental complexity.
title Membrane stepping optimization in Modulation Based Imaging
topic Optics
Medical Physics
url https://arxiv.org/abs/2511.14886