Quantitative phase retrieval simulation for mesh-based x-ray phase imaging systems

Laila Hassan; Weiyuan Sun; Carolyn A. MacDonald; Jonathan C. Petruccelli

doi:10.1117/12.2582175

Quantitative phase retrieval simulation for mesh-based x-ray phase imaging systems

Laila Hassan
, Weiyuan Sun
, Carolyn A. MacDonald
, Jonathan C. Petruccelli

Physics

University at Albany

SUNY Albany

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

1 Scopus citations

Abstract

A system that employs a stainless steel wire mesh to produce a high-contrast structured illumination pattern reduces the need for source coherence and complex alignments in x-ray phase imaging. Phase is reconstructed from distortions in this pattern due to phase-based x-ray deflection. A computational model of this system has been developed. Accurately assessing detector performance significantly improves the accuracy of the phase reconstruction.

Original language	English
Title of host publication	Medical Imaging 2021
Subtitle of host publication	Physics of Medical Imaging
Editors	Hilde Bosmans, Wei Zhao, Lifeng Yu
Publisher	SPIE
ISBN (Electronic)	9781510640191
DOIs	https://doi.org/10.1117/12.2582175
State	Published - 2021
Event	Medical Imaging 2021: Physics of Medical Imaging - Virtual, Online, United States Duration: Feb 15 2021 → Feb 19 2021

Publication series

Name	Progress in Biomedical Optics and Imaging - Proceedings of SPIE
Volume	11595

Conference

Conference	Medical Imaging 2021: Physics of Medical Imaging
Country/Territory	United States
City	Virtual, Online
Period	02/15/21 → 02/19/21

Keywords

Computational imaging
Digital imaging
Mammography
Phase retrieval
X-ray phase imaging

Access to Document

10.1117/12.2582175

Cite this

Hassan, L., Sun, W., MacDonald, C. A., & Petruccelli, J. C. (2021). Quantitative phase retrieval simulation for mesh-based x-ray phase imaging systems. In H. Bosmans, W. Zhao, & L. Yu (Eds.), Medical Imaging 2021: Physics of Medical Imaging Article 115954P (Progress in Biomedical Optics and Imaging - Proceedings of SPIE; Vol. 11595). SPIE. https://doi.org/10.1117/12.2582175

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title = "Quantitative phase retrieval simulation for mesh-based x-ray phase imaging systems",

abstract = "A system that employs a stainless steel wire mesh to produce a high-contrast structured illumination pattern reduces the need for source coherence and complex alignments in x-ray phase imaging. Phase is reconstructed from distortions in this pattern due to phase-based x-ray deflection. A computational model of this system has been developed. Accurately assessing detector performance significantly improves the accuracy of the phase reconstruction.",

keywords = "Computational imaging, Digital imaging, Mammography, Phase retrieval, X-ray phase imaging",

author = "Laila Hassan and Weiyuan Sun and MacDonald, \{Carolyn A.\} and Petruccelli, \{Jonathan C.\}",

note = "Publisher Copyright: {\textcopyright} COPYRIGHT SPIE. Downloading of the abstract is permitted for personal use only.; Medical Imaging 2021: Physics of Medical Imaging ; Conference date: 15-02-2021 Through 19-02-2021",

year = "2021",

doi = "10.1117/12.2582175",

language = "English",

series = "Progress in Biomedical Optics and Imaging - Proceedings of SPIE",

publisher = "SPIE",

editor = "Hilde Bosmans and Wei Zhao and Lifeng Yu",

booktitle = "Medical Imaging 2021",

}

Hassan, L, Sun, W, MacDonald, CA & Petruccelli, JC 2021, Quantitative phase retrieval simulation for mesh-based x-ray phase imaging systems. in H Bosmans, W Zhao & L Yu (eds), Medical Imaging 2021: Physics of Medical Imaging., 115954P, Progress in Biomedical Optics and Imaging - Proceedings of SPIE, vol. 11595, SPIE, Medical Imaging 2021: Physics of Medical Imaging, Virtual, Online, United States, 02/15/21. https://doi.org/10.1117/12.2582175

Quantitative phase retrieval simulation for mesh-based x-ray phase imaging systems. / Hassan, Laila; Sun, Weiyuan; MacDonald, Carolyn A. et al.
Medical Imaging 2021: Physics of Medical Imaging. ed. / Hilde Bosmans; Wei Zhao; Lifeng Yu. SPIE, 2021. 115954P (Progress in Biomedical Optics and Imaging - Proceedings of SPIE; Vol. 11595).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Quantitative phase retrieval simulation for mesh-based x-ray phase imaging systems

AU - Hassan, Laila

AU - Sun, Weiyuan

AU - MacDonald, Carolyn A.

AU - Petruccelli, Jonathan C.

N1 - Publisher Copyright: © COPYRIGHT SPIE. Downloading of the abstract is permitted for personal use only.

PY - 2021

Y1 - 2021

N2 - A system that employs a stainless steel wire mesh to produce a high-contrast structured illumination pattern reduces the need for source coherence and complex alignments in x-ray phase imaging. Phase is reconstructed from distortions in this pattern due to phase-based x-ray deflection. A computational model of this system has been developed. Accurately assessing detector performance significantly improves the accuracy of the phase reconstruction.

AB - A system that employs a stainless steel wire mesh to produce a high-contrast structured illumination pattern reduces the need for source coherence and complex alignments in x-ray phase imaging. Phase is reconstructed from distortions in this pattern due to phase-based x-ray deflection. A computational model of this system has been developed. Accurately assessing detector performance significantly improves the accuracy of the phase reconstruction.

KW - Computational imaging

KW - Digital imaging

KW - Mammography

KW - Phase retrieval

KW - X-ray phase imaging

UR - https://www.scopus.com/pages/publications/85103684799

U2 - 10.1117/12.2582175

DO - 10.1117/12.2582175

M3 - Conference contribution

T3 - Progress in Biomedical Optics and Imaging - Proceedings of SPIE

BT - Medical Imaging 2021

A2 - Bosmans, Hilde

A2 - Zhao, Wei

A2 - Yu, Lifeng

PB - SPIE

T2 - Medical Imaging 2021: Physics of Medical Imaging

Y2 - 15 February 2021 through 19 February 2021

ER -

Quantitative phase retrieval simulation for mesh-based x-ray phase imaging systems

Abstract

Publication series

Conference

Keywords

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