Synchrotron tests of a 3D medipix2 X-ray detector

David Pennicard; Julien Marchal; Celeste Fleta; Giulio Pellegrini; Manuel Lozano; Chris Parkes; Nicola Tartoni; Damien Barnett; Igor Dolbnya; Kawal Sawhney; Richard Bates; Val O'Shea; Victoria Wright

doi:10.1109/TNS.2009.2037746

Synchrotron tests of a 3D medipix2 X-ray detector

David Pennicard, Julien Marchal, Celeste Fleta, Giulio Pellegrini, Manuel Lozano, Chris Parkes, Nicola Tartoni, Damien Barnett, Igor Dolbnya, Kawal Sawhney, Richard Bates, Val O'Shea, Victoria Wright

Research output: Contribution to journal › Article › peer-review

Abstract

Three-dimensional (3D) photodiode detectors offer advantages over standard planar photodiodes in a range of applications, including X-ray detection for synchrotrons and medical imaging. The principal advantage of these sensors for X-ray imaging is their low charge sharing between adjacent pixels, which could improve spatial and spectral resolution. A 'double-sided' 3D detector has been bonded to a Medipix2 single-photon-counting readout chip, and tested in a monochromatic X-ray beam at the Diamond synchrotron. Tests of the 3D detector's response spectrum and its Line Spread Function have shown that it has substantially lower charge sharing than a standard planar Medipix2 sensor. Additionally, the 3D detector was used to image diffraction rings produced by a powdered silicon sample, demonstrating the detector's use in a standard synchrotron experiment. © 2010 IEEE.

Original language	English
Article number	5410024
Pages (from-to)	387-394
Number of pages	7
Journal	Ieee Transactions on Nuclear Science
Volume	57
Issue number	1
DOIs	https://doi.org/10.1109/TNS.2009.2037746
Publication status	Published - Feb 2010

Keywords

Position sensitive detectors
Silicon radiation detectors
Solid state detectors
Synchrotron radiation
X-ray detectors
X-ray imaging

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10.1109/TNS.2009.2037746

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title = "Synchrotron tests of a 3D medipix2 X-ray detector",

abstract = "Three-dimensional (3D) photodiode detectors offer advantages over standard planar photodiodes in a range of applications, including X-ray detection for synchrotrons and medical imaging. The principal advantage of these sensors for X-ray imaging is their low charge sharing between adjacent pixels, which could improve spatial and spectral resolution. A 'double-sided' 3D detector has been bonded to a Medipix2 single-photon-counting readout chip, and tested in a monochromatic X-ray beam at the Diamond synchrotron. Tests of the 3D detector's response spectrum and its Line Spread Function have shown that it has substantially lower charge sharing than a standard planar Medipix2 sensor. Additionally, the 3D detector was used to image diffraction rings produced by a powdered silicon sample, demonstrating the detector's use in a standard synchrotron experiment. {\textcopyright} 2010 IEEE.",

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doi = "10.1109/TNS.2009.2037746",

language = "English",

volume = "57",

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AU - Pennicard, David

AU - Marchal, Julien

AU - Fleta, Celeste

AU - Pellegrini, Giulio

AU - Lozano, Manuel

AU - Parkes, Chris

AU - Tartoni, Nicola

AU - Barnett, Damien

AU - Dolbnya, Igor

AU - Sawhney, Kawal

AU - Bates, Richard

AU - O'Shea, Val

AU - Wright, Victoria

PY - 2010/2

Y1 - 2010/2

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AB - Three-dimensional (3D) photodiode detectors offer advantages over standard planar photodiodes in a range of applications, including X-ray detection for synchrotrons and medical imaging. The principal advantage of these sensors for X-ray imaging is their low charge sharing between adjacent pixels, which could improve spatial and spectral resolution. A 'double-sided' 3D detector has been bonded to a Medipix2 single-photon-counting readout chip, and tested in a monochromatic X-ray beam at the Diamond synchrotron. Tests of the 3D detector's response spectrum and its Line Spread Function have shown that it has substantially lower charge sharing than a standard planar Medipix2 sensor. Additionally, the 3D detector was used to image diffraction rings produced by a powdered silicon sample, demonstrating the detector's use in a standard synchrotron experiment. © 2010 IEEE.

KW - Position sensitive detectors

KW - Silicon radiation detectors

KW - Solid state detectors

KW - Synchrotron radiation

KW - X-ray detectors

KW - X-ray imaging

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JF - Ieee Transactions on Nuclear Science

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M1 - 5410024

ER -

Synchrotron tests of a 3D medipix2 X-ray detector

Abstract

Keywords

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