Towards a practical implementation of X-ray ghost imaging with synchrotron light

Daniele Pelliccia; Margie P. Olbinado; Alexander Rack; Andrew M. Kingston; Glenn R. Myers; David M. Paganin

doi:10.1107/S205225251800711X

Towards a practical implementation of X-ray ghost imaging with synchrotron light

Daniele Pelliccia^*, Margie P. Olbinado, Alexander Rack, Andrew M. Kingston, Glenn R. Myers, David M. Paganin

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

39 Citations (Scopus)

Abstract

An experimental procedure for transmission X-ray ghost imaging using synchrotron light is presented. Hard X-rays from an undulator were divided by a beamsplitter to produce two copies of a speckled incident beam. Both beams were simultaneously measured on an indirect pixellated detector and the intensity correlation between the two copies was used to retrieve the ghost image of samples placed in one of the two beams, without measuring the samples directly. Aiming at future practical uses of X-ray ghost imaging, the authors discuss details regarding data acquisition, image reconstruction strategies and measure the point-spread function of the ghost-imaging system. This approach may become relevant for applications of ghost imaging with X-ray sources such as undulators in storage rings, free-electron lasers and lower-coherence laboratory facilities.

Original language	English
Pages (from-to)	428-438
Number of pages	11
Journal	IUCrJ
Volume	5
DOIs	https://doi.org/10.1107/S205225251800711X
Publication status	Published - 2018

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title = "Towards a practical implementation of X-ray ghost imaging with synchrotron light",

abstract = "An experimental procedure for transmission X-ray ghost imaging using synchrotron light is presented. Hard X-rays from an undulator were divided by a beamsplitter to produce two copies of a speckled incident beam. Both beams were simultaneously measured on an indirect pixellated detector and the intensity correlation between the two copies was used to retrieve the ghost image of samples placed in one of the two beams, without measuring the samples directly. Aiming at future practical uses of X-ray ghost imaging, the authors discuss details regarding data acquisition, image reconstruction strategies and measure the point-spread function of the ghost-imaging system. This approach may become relevant for applications of ghost imaging with X-ray sources such as undulators in storage rings, free-electron lasers and lower-coherence laboratory facilities.",

keywords = "X-ray ghost imaging, X-ray imaging, X-ray speckle, coherence, computational X-ray imaging, hard X-rays, point-spread function",

author = "Daniele Pelliccia and Olbinado, {Margie P.} and Alexander Rack and Kingston, {Andrew M.} and Myers, {Glenn R.} and Paganin, {David M.}",

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doi = "10.1107/S205225251800711X",

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T1 - Towards a practical implementation of X-ray ghost imaging with synchrotron light

AU - Pelliccia, Daniele

AU - Olbinado, Margie P.

AU - Rack, Alexander

AU - Kingston, Andrew M.

AU - Myers, Glenn R.

AU - Paganin, David M.

PY - 2018

Y1 - 2018

N2 - An experimental procedure for transmission X-ray ghost imaging using synchrotron light is presented. Hard X-rays from an undulator were divided by a beamsplitter to produce two copies of a speckled incident beam. Both beams were simultaneously measured on an indirect pixellated detector and the intensity correlation between the two copies was used to retrieve the ghost image of samples placed in one of the two beams, without measuring the samples directly. Aiming at future practical uses of X-ray ghost imaging, the authors discuss details regarding data acquisition, image reconstruction strategies and measure the point-spread function of the ghost-imaging system. This approach may become relevant for applications of ghost imaging with X-ray sources such as undulators in storage rings, free-electron lasers and lower-coherence laboratory facilities.

AB - An experimental procedure for transmission X-ray ghost imaging using synchrotron light is presented. Hard X-rays from an undulator were divided by a beamsplitter to produce two copies of a speckled incident beam. Both beams were simultaneously measured on an indirect pixellated detector and the intensity correlation between the two copies was used to retrieve the ghost image of samples placed in one of the two beams, without measuring the samples directly. Aiming at future practical uses of X-ray ghost imaging, the authors discuss details regarding data acquisition, image reconstruction strategies and measure the point-spread function of the ghost-imaging system. This approach may become relevant for applications of ghost imaging with X-ray sources such as undulators in storage rings, free-electron lasers and lower-coherence laboratory facilities.

KW - X-ray ghost imaging

KW - X-ray imaging

KW - X-ray speckle

KW - coherence

KW - computational X-ray imaging

KW - hard X-rays

KW - point-spread function

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SP - 428

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JO - IUCrJ

JF - IUCrJ

ER -

Towards a practical implementation of X-ray ghost imaging with synchrotron light

Abstract

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