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268 results on '"Speller, Robert"'

51. RadICAL Stack:a localisation method for dynamic gamma/neutron fields

Author

Randall, George, Ellis, Mark, Duroe, Kirk, Jones, Ashley Richard, Joyce, Malcolm John, Payne, Christopher, Sellin, Paul, Speller, Robert, Randall, George, Ellis, Mark, Duroe, Kirk, Jones, Ashley Richard, Joyce, Malcolm John, Payne, Christopher, Sellin, Paul, and Speller, Robert

Abstract

A variation of the RadICAL (Radiation Imaging Cylinder Activity Locator) system capable of operating in a dynamic environment, such as that created by active interrogation techniques, has been developed. RadICAL is a novel method for locating a radiological source using a rotating detector element. The detector geometry is that of a thin sheet and is rotated to present a constantly changing surface area to the source; it therefore generates a characteristic temporal response which can be used to determine the source direction. The time required to determine the direction of a source make it unsuitable for dynamic environments and so an alternative method is presented that uses a stack of identical scintillator slabs positioned at fixed horizontal angles around a central axis. By comparing count rates from each slab to a standard response curve, using a specially developed algorithm, the direction of a source can be determined without the need to rotate the detector. EJ-299-33 plastic scintillator was used to allow detection of separate neutron and gamma events in a mixed field through pulse shape discrimination. A four element detector was built and shown to achieve a positional accuracy of approximately 4.4 degrees when exposed to a 1.44MBq 137 Cs source at distances of up to 2m. The same detector was used to discriminate separate neutron and gamma events in a mixed field, which allows for the possibility of locating a neutron source within a gamma rich environment.

Published
2015

55. The use of short and wide x-ray pulses for time-of-flight x-ray Compton Scatter Imaging in cargo security

Author

Calvert, Nick, additional, Betcke, Marta M., additional, Cresswell, John R., additional, Deacon, Alick N., additional, Gleeson, Anthony J., additional, Judson, Daniel S., additional, Mason, Peter, additional, McIntosh, Peter A., additional, Morton, Edward J., additional, Nolan, Paul J., additional, Ollier, James, additional, Procter, Mark G., additional, and Speller, Robert D., additional

Published
2015
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57. A Multi-Element Detector System for Intelligent Imaging: I-ImaS

Author

Griffiths, Jennifer A. Metaxas, Marinos G. Royle, Gary J. and Venanzi, Cristian Esbrand, Colin van der Stelt, Paul F. and Verheij, Hans Li, Gang Turchetta, Renato Fant, Andrea and Gasiorek, Przemyslaw Theodoridis, Sergios Georgiou, Harris and Cavouras, Dionissis Hall, Geoff Noy, Matthew Jones, John and Leaver, James Machin, Davy Greenwood, S. Khaleeq, M. and Schulerud, Helene Ostby, Joar M. Triantis, Frixos Asimidis, Asimakis Bolanakis, Dimos Manthos, Nikos Longo, Renata and Bergamaschi, Anna Speller, Robert D.

Abstract

I-ImaS is a European project aiming to produce new, intelligent x-ray imaging systems using novel APS sensors to create optimal diagnostic images. Initial systems concentrate on mammography and encephalography. Later development will yield systems for other types of radiography such as industrial QA and homeland security. The I-ImaS system intelligence, due to APS technology and FPGAs, allows real-time analysis of data during image acquisition, giving the capability to build a truly adaptive imaging system with the potential to create images with maximum diagnostic information within given dose constraints. A companion paper deals with the DAQ system and preliminary characterization. This paper considers the laboratory x-ray characterization of the detector elements of the I-ImaS system. The characterization of the sensors when tiled to form a strip detector will be discussed, along with the appropriate correction techniques formulated to take into account the misalignments between individual sensors within the array. Preliminary results show that the detectors have sufficient performance to be used successfully in the initial mammographic and encephalographic I-ImaS systems under construction and this paper will further discuss the testing of these systems and the iterative processes used for intelligence upgrade in order to obtain the optimal algorithms and settings.

Published
2006

62. Cerenkov optical emissions in particle radiotherapy

Author

Helo, Yusuf, primary, Rosenberg, Ivan, additional, Kacperek, Andrzej, additional, D’Souza, Derek, additional, MacDonald, Lindsay, additional, Dixon, Emma, additional, Speller, Robert, additional, Royle, Gary, additional, and Gibson, Adam, additional

Published
2014
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64. X-ray Performance Evaluation of the Dexela CMOS APS X-ray Detector Using Monochromatic Synchrotron Radiation in the Mammographic Energy Range

Author

Konstantinidis, Anastasios C., primary, Szafraniec, Magdalena B., additional, Rigon, Luigi, additional, Tromba, Giuliana, additional, Dreossi, Diego, additional, Sodini, Nicola, additional, Liaparinos, Panagiotis F., additional, Naday, Steve, additional, Gunn, Spencer, additional, McArthur, Alan, additional, Speller, Robert D., additional, and Olivo, Alessandro, additional

Published
2013
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66. Multiple Module Pixellated CdTe Spectroscopic X-Ray Detector

Author

Wilson, Matthew D., primary, Bell, Steven J., additional, Cernik, Robert J., additional, Christodoulou, Christiana, additional, Egan, Christopher K., additional, O'Flynn, Daniel, additional, Jacques, Simon, additional, Pani, Silvia, additional, Scuffham, James, additional, Seller, Paul, additional, Sellin, Paul J., additional, Speller, Robert, additional, and Veale, Matthew C., additional

Published
2013
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72. "Edge illumination" in X-ray Phase Contrast Imaging

Author

Munro, Peter R. T., primary, Ignatyev, Konstantin, additional, Diemoz, Paul C., additional, Szafraniec, Magdalena B., additional, Hagen, Charlotte K., additional, Millard, Thomas P., additional, Zapata, Cesar E., additional, Speller, Robert D., additional, and Olivo, Alessandro, additional

Published
2012
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93. Optical and x-ray characterization of two novel CMOS image sensors

Author

Bohndiek, Sarah E., primary, Arvanitis, Costas D., additional, Venanzi, Cristian, additional, Royle, Gary J., additional, Clark, Andy T., additional, Crooks, Jamie P., additional, Prydderch, Mark L., additional, Turchetta, Renato, additional, Blue, Andrew, additional, and Speller, Robert D., additional

Published
2007
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94. A Multi-Element Detector System for Intelligent Imaging: I-ImaS

Author

Griffiths, Jennifer A., primary, Metaxas, Marinos G., additional, Royle, Gary J., additional, Venanzi, Cristian, additional, Esbrand, Colin, additional, van der Stelt, Paul F., additional, Verheij, Hans, additional, Li, Gang, additional, Turchetta, Renato, additional, Fant, Andrea, additional, Gasiorek, Przemyslaw, additional, Theodoridis, Sergios, additional, Georgiou, Harris, additional, Cavouras, Dionissis, additional, Hall, Geoff, additional, Noy, Matthew, additional, Jones, John, additional, Leaver, James, additional, Machin, Davy, additional, Greenwood, S, additional, Khaleeq, M, additional, Schulerud, Helene, additional, Ostby, Joar M., additional, Triantis, Frixos, additional, Asimidis, Asimakis, additional, Bolanakis, Dimos, additional, Manthos, Nikos, additional, Longo, Renata, additional, Bergamaschi, Anna, additional, and Speller, Robert D., additional

Published
2006
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97. "Edge illumination" in X-ray Phase Contrast Imaging.

Author

Munro, Peter R. T., Ignatyev, Konstantin, Diemoz, Paul C., Szafraniec, Magdalena B., Hagen, Charlotte K., Millard, Thomas P., Zapata, Cesar E., Speller, Robert D., and Olivo, Alessandro

Subjects
CONTRAST effect, X-rays, IMAGING systems, DETECTORS, SCIENTIFIC observation, IMAGE analysis
Abstract

In the late '90s, the concept of "edge illumination" was developed at ELETTRA in Italy as an alternative method to increase the phase sensitivity of an imaging system. The main idea was to be able to reproduce the fine angular selection of "analyzer" crystals without actually using a crystal, as this would allow employing the method with divergent and polychromatic (i.e. conventional) x-ray sources. It was observed that this could be achieved by illuminating only the edges of the detector pixels, and that the method's sensitivity could be progressively increased by illuminating smaller pixel fractions closer to its physical edge. A few years later the idea was adapted for use with a conventional source by means of two sets of x-ray masks ("coded aperture" masks), which enabled obtaining the same effect for each row (or column) of pixels of an area detector illuminated by a cone beam. This article reviews the method and presents recent examples of application. [ABSTRACT FROM AUTHOR]

Published
2012
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