Low open fraction coded masks for x-ray backscatter imaging

Andre Arelius Marcus Muñoz; Anna Vella; Matthew J. F. Healy; David W. Lane; Ian Jupp; David Lockley

doi:10.1117/1.OE.57.9.093108

24 September 2018 Low open fraction coded masks for x-ray backscatter imaging

Andre Arelius Marcus Muñoz, Anna Vella, Matthew J. F. Healy, David W. Lane, Ian Jupp, David Lockley

Author Affiliations +

Optical Engineering, Vol. 57, Issue 9, 093108 (September 2018). https://doi.org/10.1117/1.OE.57.9.093108

Abstract

Previous research has indicated that coded masks with open fractions <0.5 are optimal for imaging some types of far-field scenes. The open fraction, in this case, refers to the ratio of open elements in the mask, with values <0.5 considered as low open fraction. Research is limited by the sparsity of <0.5 open fractions masks; thus a further 94 lower open fraction arrays are calculated and presented. These include the dilute uniformly redundant array and singer set, along with information on imaging potential, array sizes, and open fractions. Signal-to-noise ratio reveals the 0.5 open fraction modified uniformly redundant array to be the optimal coded mask for near-field x-ray backscatter imaging, over the lower open fraction singer set, dilute uniformly redundant and random array.

Citation Download Citation

Andre Arelius Marcus Muñoz, Anna Vella, Matthew J. F. Healy, David W. Lane, Ian Jupp, and David Lockley "Low open fraction coded masks for x-ray backscatter imaging," Optical Engineering 57(9), 093108 (24 September 2018). https://doi.org/10.1117/1.OE.57.9.093108

Received: 9 May 2018; Accepted: 30 August 2018; Published: 24 September 2018

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