| Literature DB >> 27446649 |
Sebastian Ehn1, Franz Michael Epple1, Andreas Fehringer1, David Pennicard2, Heinz Graafsma3, Peter Noël4, Franz Pfeiffer1.
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.Keywords: (040.0040) Detectors; (100.0100) Image processing; (100.6640) Superresolution; (110.6960) Tomography; (170.7440) X-ray imaging; (180.7460) X-ray microscopy
Year: 2016 PMID: 27446649 PMCID: PMC4929635 DOI: 10.1364/BOE.7.001227
Source DB: PubMed Journal: Biomed Opt Express ISSN: 2156-7085 Impact factor: 3.732