| Literature DB >> 30840738 |
Jeffrey F Marsh1, Steven M Jorgensen1, David S Rundle2, Andrew J Vercnocke1, Shuai Leng1, Philip H Butler3, Cynthia H McCollough1, Erik L Ritman4.
Abstract
We assess the performance of a cadmium zinc telluride (CZT)-based Medipix3RX energy-resolving and photon-counting x-ray detector as a candidate for spectral microcomputed tomography (micro-CT) imaging. It features an array of 128 × 128 , 110 - μ m 2 pixels, each with four simultaneous threshold counters that utilize real-time charge summing. Each pixel's response is assessed by imaging with a range of incident x-ray intensities and detector integration times. Energy-related assessments are made by exposing the detector to the emission from an I-125 radioisotope brachytherapy seed. Long-term stability is assessed by repeating identical exposures over the course of 1 h. The high yield of properly functioning pixels (98.8%), long-term stability (linear regression of whole-chip response over 1 h of acquisitions: y = - 0.0038 x + 2284 ; standard deviation: 3.7 counts), and energy resolution [2.5 keV full-width half-maximum (FWHM) (single pixel), 3.7 keV FWHM (across the full image)] make this device suitable for spectral micro-CT.Entities:
Keywords: Medipix; cadmium zinc telluride-based spectral microcomputed tomography; charge sharing; photon counting; x-ray microtomography
Year: 2018 PMID: 30840738 PMCID: PMC6280579 DOI: 10.1117/1.JMI.5.4.043503
Source DB: PubMed Journal: J Med Imaging (Bellingham) ISSN: 2329-4302