AI Article Synopsis
- * The study uses MEDIPIX3RX-based detectors like LAMBDA, benefiting from small pixel sizes and real-time charge-sharing correction for enhanced image clarity.
- * By employing raster-scanning with sub-pixel steps and a deconvolution algorithm, the method achieves resolutions near 10 μm using standard x-ray equipment.
Article Abstract
Recent advances in single-photon-counting detectors are enabling the development of novel approaches to reach micrometer-scale resolution in x-ray imaging. One example of such a technology are the MEDIPIX3RX-based detectors, such as the LAMBDA which can be operated with a small pixel size in combination with real-time on-chip charge-sharing correction. This characteristic results in a close to ideal, box-like point spread function which we made use of in this study. The proposed method is based on raster-scanning the sample with sub-pixel sized steps in front of the detector. Subsequently, a deconvolution algorithm is employed to compensate for blurring introduced by the overlap of pixels with a well defined point spread function during the raster-scanning. The presented approach utilizes standard laboratory x-ray equipment while we report resolutions close to 10 μm. The achieved resolution is shown to follow the relationship [Formula: see text] with the pixel-size p of the detector and the number of raster-scanning steps n.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4929635 | PMC |
| http://dx.doi.org/10.1364/BOE.7.001227 | DOI Listing |
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