Journal ArticleDOI
On the way to full-field X-ray fluorescence spectroscopy imaging with coded apertures
TLDR
A new mask based on an inverted modified uniformly redundant array that could be used for the construction of a decoding mask for all investigated geometrical arrangements is used and two new reconstruction methods are developed, one based on iterative algebraic optimization and another based on a genetic algorithm.Abstract:
Imaging with X-rays is a challenging field, due to the optical properties of X-rays. The fabrication of appropriate optics is usually expensive and requires an elaborate manufacturing process. One simpler and less expensive possibility of imaging high energy radiation is coded aperture imaging, a technique well established in astrophysics and also used in nuclear medicine or radiation detection, e.g., for nuclear decommissioning. Our aim is to adapt coded aperture imaging for X-ray fluorescence spectroscopy in the nearfield. In this work we show theoretical considerations and preliminary simulations of image formation through a coded aperture and three different reconstruction methods to prepare the experiments. We used a new mask based on an inverted modified uniformly redundant array (MURA) that could be used for the construction of a decoding mask for all investigated geometrical arrangements. The most commonly used reconstruction method, convoluting the detected image with a decoding mask, does not always deliver satisfactory results. This is more noticeable for small distances between the object, mask and detector. Hence, we developed two new reconstruction methods, one based on iterative algebraic optimization and another one based on a genetic algorithm. Both show good performance even in those cases where the convolution method fails. This provides a basis for further investigations of the ideal parameters for near field coded aperture imaging and refinements of the algorithms. We performed first measurements with a coded aperture at the BAMline at BESSY II and could successfully reconstruct a test object from the obtained recorded images.read more
Citations
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Journal ArticleDOI
Comparison of three reconstruction methods based on deconvolution, iterative algorithm and neural network for X-ray fluorescence imaging with coded aperture optics
Anicó Kulow,Anicó Kulow,Ana Guilherme Buzanich,Uwe Reinholz,Franziska Emmerling,Sven Hampel,Ursula E. A. Fittschen,Christina Streli,Martin Radtke +8 more
TL;DR: It is demonstrated that X-ray fluorescence imaging with coded apertures has the potential to deliver good results without scanning and with an improved count rate, so that measurement times can be shortened compared to established methods.
Journal ArticleDOI
Chemical element mapping by x-ray computational ghost fluorescence
TL;DR: In this article , the authors demonstrate an x-ray fluorescence method based on computational ghost imaging that overcomes those limitations since it does not require focusing and show that when it is combined with compressed sensing the total measurement time can be significantly reduced.
Journal ArticleDOI
A feasibility study on the application of separable coded masks to X-ray fluorescence imaging
Shifeng Sun,Xiaoping Ouyang +1 more
TL;DR: This work explores the feasibility of applying the coded aperture method to X-ray fluorescence imaging by adapting a separable mask design and a novel near-field coded aperture imaging model to reduce the complexity of system calibration and image reconstruction.
Patent
Talbot-lau x-ray source and interferometric system
TL;DR: In this article, an x-ray source and an X-ray interferometry system utilizing the xray source are provided. But the x-rays are transmitted through the first material and to or through at least one optical element.
Journal ArticleDOI
A coded aperture microscope for X-ray fluorescence full-field imaging
D. P. Siddons,Anthony Kuczewski,Abdul K. Rumaiz,Ryan Tappero,Mourad Idir,K. Nakhoda,J. Khanfri,V. Singh,Erik R. Farquhar,Michael Sullivan,Donald Abel,David J. Brady,Xin Yuan +12 more
TL;DR: First results from a 10 µm MURA coded aperture optic for a full-field X-ray fluorescence microscope are presented.
References
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Journal ArticleDOI
Formation of Optical Images by X-Rays
Paul Kirkpatrick,Albert V. Baez +1 more
TL;DR: Several conceivable methods for the formation of optical images by x-rays are considered, and a method employing concave mirrors is adopted as the most promising.
Journal ArticleDOI
A compound refractive lens for focusing high-energy X-rays
TL;DR: In this article, a simple procedure for fabricating refractive lenses that are effective for focusing of X-rays in the energy range 5-40 keV is described, and the problem associated with absorption is minimized by fabricating the lenses from low-atomic-weight materials.
Journal ArticleDOI
New family of binary arrays for coded aperture imaging
TL;DR: With the addition of MURAs to the family of binary arrays, all prime numbers can now be used for making optimal coded apertures, increasing the number of available square patterns by more than a factor of 3.
Journal ArticleDOI
Coded aperture imaging in X- and gamma-ray astronomy
TL;DR: Coded aperture imaging in high energy astronomy represents an important technical advance in instrumentation over the full energy range from X-to γ-rays and is playing a unique role in those spectral ranges where other techniques become ineffective or impracticable due to limitations connected to the physics of interactions of photons with matter.
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