%L discovery1323175 %I American Institute of Physics (AIP) %D 2011 %P 254-257 %O This version is the version of record. For information on re-use, please refer to the publisher’s terms and conditions. %T Phase Contrast Imaging with Coded Apertures Using Laboratory-Based X-ray Sources %X Xâ€ray phase contrast imaging is a powerful technique that allows detection of changes in the phase of xâ€ray wavefronts as they pass through a sample. As a result, details not visible in conventional xâ€ray absorption imaging can be detected. Until recently the majority of applications of phase contrast imaging were at synchrotron facilities due to the availability of their high flux and coherence; however, a number of techniques have appeared recently that allow phase contrast imaging to be performed using laboratory sources. Here we describe a phase contrast imaging technique, developed at University College London, that uses two coded apertures. The xâ€ray beam is shaped by the preâ€sample aperture, and small deviations in the xâ€ray propagation direction are detected with the help of the detector aperture. In contrast with other methods, it has a much more relaxed requirement for the source size (it works with source sizes up to 100 μm). A working prototype codedâ€aperture system has been built. An xâ€ray detector with directly deposited columnar CsI has been used to minimize signal spillâ€over into neighboring pixels. Phase contrast images obtained with the system have demonstrated its effectiveness for imaging lowâ€absorption materials. %E I McNulty %E C Eyberger %E B Lai %B Proceedings of the 10th International Conference on Xâ€ray Microscopy %V 1365 %A K Ignatyev %A PRT Munro %A RD Speller %A A Olivo %J 10TH INTERNATIONAL CONFERENCE ON X-RAY MICROSCOPY %C Chicago, IL, USA %S AIP Conference Proceedings