Paul Sellin

Professor Paul Sellin


Professor of Physics
FInstP, CPhys, MIEEE
+44 (0)1483 682747
08 BC 04

Academic and research departments

School of Mathematics and Physics.

About

Areas of specialism

Perovskite Radiation Detectors; Materials Physics

University roles and responsibilities

  • Visiting Professor, Department of Medical Physics and Biomedical Engineering, UCL London
  • Visiting Professor, Department of Physics, University of Wollongong, Australia.

    My qualifications

    1988
    BSc Physics (Hons.) First Class
    University of Birmingham
    1992
    PhD in Experimental Nuclear PHysics, thesis entitled "Proton radioactivity measurements using a double-sided silicon strip detector".
    University of Edinburgh

    Previous roles

    2010 - 2015
    Head of Department of Physics

    Research

    Research interests

    Research collaborations

    Supervision

    Completed postgraduate research projects I have supervised

    Teaching

    Publications

    Joseph O'Neill, Isabel Braddock, Carol Crean, Joydip Ghosh, Mateus Masteghin, Sion Richards, Matthew Wilson, Paul Sellin (2023)Development and characterisation of caesium lead halide perovskite nanocomposite scintillators for X-ray detection, In: Frontiers in Physics101046589 Frontiers Media

    We present work on the development of mixed-halide perovskite (CsPbClx Br(1-x)) nanocrystal scintillators for X-ray detection applications. The effect of the varying the halide composition on the resulting peak emission and light yield is discussed, with the CsPbBr3 materials displaying the greatest light yield. These perovskite nanocrystals were successfully loaded into PMMA, an inert plastic, at 2% mass weighting and the responses of these composites were compared to that of their colloidal dispersions. The composites were also characterised in terms of the radioluminescent light yield and decay response, alongside their X-ray sensitivity, in which the PMMA-CsPbBr3 composites again outperformed the materials containing Cl- anions.

    J O'Neill, J Ghosh, S Alghamdi, I Braddock, C Crean, R Dorey, R Mulholland, S Richards, M Wilson, H Salway, M Anaya, J Reiss, D Wolfe, P Sellin (2023)Hydrothermal and Mechanosynthesis of Mixed-Cation Double Perovskite Scintillators for Radiation Detection Wiley

    Publication status: Published Funder: STFC; doi: http://dx.doi.org/10.13039/501100000271 Funder: Rutherford Appleton Laboratory; doi: http://dx.doi.org/10.13039/100014570 AbstractThis article details work performed on the synthesis and characterization of an inorganic mixed‐cation double halide perovskite, Cs2Ag.6Na.4In.85Bi.15Cl6 (CANIBIC). Single crystals have been created via a hydrothermal reaction, milled into a powder, and pressed into pellets, while nanocrystals have been directly synthesized via mechanosynthesis. A computational model is constructed to predict the X‐ray diffraction pattern of CANIBIC; this model aligns very well with the X‐ray diffraction pattern measured for CANIBIC crystal powder. This model can therefore be developed in the future as a tool to predict lattice parameters and crystal structures of other novel double‐halide perovskites. Photoluminescence spectra obtained from each format show broad emission centered at 630 nm, as is typical for self‐trapped exciton emission; self‐trapped exciton emission is also confirmed by investigating photoluminescence intensity as a function of laser power. Nanocomposites are produced via the loading of nanocrystals of CANIBIC into PMMA. Although nanocomposite disks consisting of a small proportion of CANIBIC nanocrystals in PMMA have a smaller mass attenuation coefficient than a pressed pellet of CANIBIC, these disks have comparatively bright radioluminescence due to their optical transparency. These nanocomposite disks are therefore a particularly useful format for the practical use of the CANIBIC scintillator.

    Joydip Ghosh, Joseph O'Neill, Mateus G Masteghin, Isabel Braddock, Carol Crean, Robert Dorey, Hayden Salway, Miguel Anaya, Justin Reiss, Douglas Wolfe, Paul Sellin (2023)Surfactant-Dependent Bulk Scale Mechanochemical Synthesis of CsPbBr3 Nanocrystals for Plastic Scintillator-Based X-ray Imaging American Chemical Society (ACS)

    We report a facile, solvent-free surfactant-dependent mechanochemical synthesis of highly luminescent CsPbBr3 nanocrystals (NCs) and study their scintillation properties. A small amount of surfactant oleylamine (OAM) plays an important role in the two-step ball milling method to control the size and emission properties of the NCs. The solid-state synthesized perovskite NCs exhibit a high photoluminescence quantum yield (PLQY) of up to 88% with excellent stability. CsPbBr3 NCs capped with different amounts of surfactant were dispersed in toluene and mixed with polymethyl methacrylate (PMMA) polymer and cast into scintillator discs. With increasing concentration of OAM during synthesis, the PL yield of CsPbBr3/PMMA nanocomposite was increased, which is attributed to reduced NC aggregation and PL quenching. We also varied the perovskite loading concentration in the nanocomposite and studied the resulting emission properties. The most intense PL emission was observed from the 2% perovskite-loaded disc, while the 10% loaded disc exhibited the highest radioluminescence (RL) emission from 50 kV X-rays. The strong RL yield may be attributed to the deep penetration of X-rays into the composite, combined with the large interaction cross-section of the X-rays with the high-Z atoms within the NCs. The nanocomposite disc shows an intense RL emission peak centered at 536 nm and a fast RL decay time of 29.4 ns. Further, we have demonstrated the X-ray imaging performance of a 10% CsPbBr3 NC-loaded nanocomposite disc.

    Logan J. Forth, Harry Gibbard, Stephanie Biddlecombe, Isabel Braddock, Carol Crean, Jia C. Khong, Mingqing Wang, Robert Speller, Kwang L. Choy, Paul Sellin, Rob Moss (2020)Polycrystalline Perovskite X-ray Detectors, In: 2020 IEEE Nuclear Science Symposium and Medical Imaging Conference (NSS/MIC)pp. 1-3 Institute of Electrical and Electronics Engineers (IEEE)

    Metal-halide perovskite materials have begun to attract much attention recently for their potential use in radiation detection applications. This interest is mainly due to their favourable semi-conductive properties, high electron density, ease of manufacture and relatively low cost compared to popular detector materials. In this paper we investigate inorganic caesium lead bromide (CsPbBr3). Polycrystalline powder samples were produced by solution growth and simple 'sandwich' devices were fabricated. The powder was manually ground and then pressed to form pellets of a few mm thickness. Gold planar electrodes were deposited on the top and bottom perovskite surfaces by evaporation and were connected to an external circuit. We have made comparative measurements of the photoluminescence (PL), dark current and temporal radiation response. The PL measurements showed stable emissions centred at 525 nm for CsPbBr 3 ' which is typical of these materials and within a useful range for this application. A CsPbBr3 device was exposed to X-rays and demonstrates a good increase in photocurrent over the dark current under both positive and negative bias with a sensitivity of 33.8 µCGy −1 air cm −2 and the temporal response was determined to be ~40 ms by measuring the photocurrent decay after X-ray illumination.

    Joydip Ghosh, Sumaiya Parveen, P. J. Sellin, P. K. Giri (2023)Recent Advances and Opportunities in Low-Dimensional Layered Perovskites for Emergent Applications beyond Photovoltaics, In: Advanced Materials Technologies8(17)2300400 Wiley

    Layered metal halide perovskites have attracted enormous research attention over the last few years, befitting their unique optical and electronic properties. Low-dimensional layered perovskites demonstrate great potential for various optoelectronic and sensing applications beyond photovoltaics. Herein, the recent progress and opportunities in 2D and quasi-2D perovskites for light-emitting diodes (LEDs), lasers, memristors, neuromorphic/synaptic applications, UV–vis photodetection, X-ray detection, scintillators, and photocatalytic applications are reviewed. First, the crystal structure, characteristics, and fundamental properties of 2D layered perovskites are discussed. Recent efforts and developments of 2D and quasi-2D metal halide perovskite for light-emitting applications with excellent luminescence properties are reviewed. Unique properties of 2D perovskites, such as negligible leakage current due to restricted carrier transport, high stability, and hydrophobicity, make them viable for memristor devices. After discussing the memristor and neuromorphic devices using 2D perovskites, the outstanding performance of 2D perovskites in UV–vis photodetection including polarization-sensitive photodetection is discussed. 2D perovskites recently proved as a superior candidate in X-ray detection with high stability. Further, the scintillation properties of 2D perovskites for the detection of ionizing radiation are discussed. Finally, some of the very recent achievements and present future outlook, including exciting opportunities in this burgeoning field are highlighted.

    Laura Basiricò, Ge Yang, Paul Sellin (2023)Editorial: Perovskite and organic materials for radiation detectors, In: Frontiers in Physics111242329 Frontiers Media

    The research of novel materials for the detection of ionizing radiation has grown rapidly in the last few years, driven by the increasing use of high-energy radiation in various domains of human society. This has stimulated the demand for radiation detectors with new capabilities and features. Perovskites and organic materials offer particular advantages over established technologies for such applications (mostly based on inorganic materials such as silicon, germanium, cadmium telluride, and cadmium zinc telluride), i.e., large area and potentially low-cost devices, lower operating power, materials grown using solution-based methods in place of traditional high-temperature melt crystal growth, high-Z materials for improved X- and gamma-ray detection efficiency, or materials which are specifically designed for efficient neutron detection. Further, they share the advantages of easy modification of their chemical, physical, and electronic properties through conventional wet chemical processes. This enables the fine-tuning and control of the detection performance of the detection device.

    Stephanie H. Bennett, Joydip Ghosh, Eric Gros-Daillon, Ferdinand Lédée, Javier Mayén Guillén, Jean-Marie Verilhac, Julien Zaccaro, Duck Young Chung, Vladislav Klepov, Mercouri G. Kanatzidis, Paul J. Sellin (2023)Charge transport comparison of FA, MA and Cs lead halide perovskite single crystals for radiation detection, In: Frontiers in Detector Science and Technology11249892 Frontiers Media

    We report a systematic comparison of the charge transport and radiation detection properties of inorganic and organic metal bromide single crystal perovskites. We studied the performance of Bridgman-grown CsPbBr 3 single crystals, together with solution-grown FAPbBr 3 and MAPbBr 3 single crystals. Laser time of flight is used to measure the drift mobilities for all samples, and we report a maxium mobility value of 121 ± 10 cm V −1 s −1 for CsPbBr 3 . Alpha particle measurements were used to assess the mobility-lifetime products, with values recorded in the range of 2 × 10 −4  cm 2 V −1 to 1 × 10 −3  cm 2 V −1 . Low temperature measurements showed an increase in bulk resistivity at temperatures down to 260 K, but no significant change to the drift mobilities. The overall performance of the Cs, FA and MA samples is compared and their potential for use in gamma spectroscopy measurements is discussed.

    Joydip Ghosh, Joseph O’Neill, Mateus G. Masteghin, Isabel Braddock, Carol Crean, Robert Dorey, Hayden Salway, Miguel Anaya, Justin Reiss, Douglas Wolfe, Paul Sellin (2023)Surfactant-Dependent Bulk Scale Mechanochemical Synthesis of CsPbBr 3 Nanocrystals for Plastic Scintillator-Based X-ray Imaging, In: ACS Applied Nano Materials American Chemical Society

    We report a facile, solvent-free surfactant-dependent mechanochemical synthesis of highly luminescent CsPbBr3 nanocrystals (NCs) and study their scintillation properties. A small amount of surfactant oleylamine (OAM) plays an important role in the two-step ball milling method to control the size and emission properties of the NCs. The solid-state synthesized perovskite NCs exhibit a high photoluminescence quantum yield (PLQY) of up to 88% with excellent stability. CsPbBr3 NCs capped with different amounts of surfactant were dispersed in toluene and mixed with polymethyl methacrylate (PMMA) polymer and cast into scintillator discs. With increasing concentration of OAM during synthesis, the PL yield of CsPbBr3/PMMA nanocomposite was increased, which is attributed to reduced NC aggregation and PL quenching. We also varied the perovskite loading concentration in the nanocomposite and studied the resulting emission properties. The most intense PL emission was observed from the 2% perovskite-loaded disc, while the 10% loaded disc exhibited the highest radioluminescence (RL) emission from 50 kV X-rays. The strong RL yield may be attributed to the deep penetration of X-rays into the composite, combined with the large interaction cross-section of the X-rays with the high-Z atoms within the NCs. The nanocomposite disc shows an intense RL emission peak centered at 536 nm and a fast RL decay time of 29.4 ns. Further, we have demonstrated the X-ray imaging performance of a 10% CsPbBr3 NC-loaded nanocomposite disc.

    Joseph O'Neill, Joydip Ghosh, Suad Alghamdi, Isabel Braddock, Carol Crean, Robert Dorey, Roma Mulholland, Sion Richards, Matthew Wilson, Hayden Salway, Miguel Anaya, Justin Reiss, Douglas Wolfe, Paul Sellin (2024)Hydrothermal and Mechanosynthesis of Mixed‐Cation Double Perovskite Scintillators for Radiation Detection, In: Advanced Optical Materials12(2)2301335 Wiley

    This article details work performed on the synthesis and characterization of an inorganic mixed‐cation double halide perovskite, Cs 2 Ag .6 Na .4 In .85 Bi .15 Cl 6 (CANIBIC). Single crystals have been created via a hydrothermal reaction, milled into a powder, and pressed into pellets, while nanocrystals have been directly synthesized via mechanosynthesis. A computational model is constructed to predict the X‐ray diffraction pattern of CANIBIC; this model aligns very well with the X‐ray diffraction pattern measured for CANIBIC crystal powder. This model can therefore be developed in the future as a tool to predict lattice parameters and crystal structures of other novel double‐halide perovskites. Photoluminescence spectra obtained from each format show broad emission centered at 630 nm, as is typical for self‐trapped exciton emission; self‐trapped exciton emission is also confirmed by investigating photoluminescence intensity as a function of laser power. Nanocomposites are produced via the loading of nanocrystals of CANIBIC into PMMA. Although nanocomposite disks consisting of a small proportion of CANIBIC nanocrystals in PMMA have a smaller mass attenuation coefficient than a pressed pellet of CANIBIC, these disks have comparatively bright radioluminescence due to their optical transparency. These nanocomposite disks are therefore a particularly useful format for the practical use of the CANIBIC scintillator.

    Matthew J. Large, Jessie A. Posar, Attila J. Mozer, Andrew Nattestad, Saree Alnaghy, Martin Carolan, PAUL JONATHAN SELLIN, Justin Davies, Zeljko Pastuovic, Michael L.F Lerch, Susanna Guatelli, Anatoly Rosenfeld, Matthew J. Griffith, Marco Petasecca (2021)Flexible Polymer X-ray Detectors with Non-fullerene Acceptors for Enhanced Stability: Toward Printable Tissue Equivalent Devices for Medical Applications, In: ACS applied materials & interfaces13(48)pp. 57703-57712 American Chemical Society
    Dou Zhao, Pingkun Cai, Wei Cheng, Binbin Zhang, Menghua Zhu, Linyue Liu, Xiaoping Ouyang, PAUL JONATHAN SELLIN, Wanqi Jie, Yadong Xu (2021)Direct Detection of Fast Neutrons by Organic Semiconducting Single Crystal Detectors, In: Advanced functional materials
    Joydip Ghosh, PAUL JONATHAN SELLIN, Pravat Kumar Giri (2022)Recent advances in lead-free double perovskites for x-ray and photodetection, In: Nanotechnology33(31) IOP

    Over the last decade, lead halide perovskites have attracted significant research attention in the field of photovoltaics, light-emitting devices, photodetection, ionizing radiation detection, etc., owing to their outstanding optoelectrical properties. However, the commercial applications of lead-based perovskite devices are restricted due to the poor ambient stability and toxicity of lead. The encapsulation of lead-based devices can reduce the possible leakage of lead. However, it is hard to ensure safety during large-scale production and long-term storage. Recently, considerable efforts have been made to design lead-free perovskites for different optoelectronic applications. Metal halide double perovskites with the general formula of A2MIMIIIX6 or A2MIVX6 could be potentially considered as green and stable alternatives for different optoelectronic applications. In this review article, we focus on the recent progress and findings on lead-free halide double perovskites for X-ray and UV-vis photodetection applications. Lead-free halide double perovskite has recently drawn a great deal of attention for superior X-ray detection due to its high absorption coefficient, large carrier mobility-lifetime product, large bulk resistance. In addition, these materials exhibit good performance in photodetection in the UV-Vis region due to high photo carrier generation and efficient carrier separation. In this review, first, we define the characteristics of lead-free double perovskite materials. The fundamental characteristics and beneficial properties of halide perovskites for direct and indirect X-ray detection are then discussed. We comprehensively review recent developments and efforts on lead-free double perovskite for X-ray detection and UV-vis photodetection. We bring out the current challenges and opportunities in the field and finally present the future outlook for developing lead-free double perovskite-based X-ray and UV-vis photodetectors for practical applications.

    Jessie A. Posar, J. R. Davis, Saree Alnaghy, D Wilkinson, Sophie Cottam, Donovan M Lee, Kristofer L Thompson, Natalie P Holmes, M Barr, A Fahy, N Nicolaidis, Fiona Louie, Beatrice Fraboni, Paul J. Sellin, Michael L.F Lerch, A Rosenfeld, Marco Petasecca, Matthew J. Griffith (2021)Polymer Photodetectors for Printable, Flexible, and Fully Tissue Equivalent X-Ray Detection with Zero-Bias Operation and Ultrafast Temporal Responses, In: Advanced Materials Technologies6(9)2001298

    A new printable organic semiconducting material combination as a tissue equivalent photodetector for indirect X‐ray detection is demonstrated in this work. The device exhibits a higher optical‐to‐electrical conversion efficiency than any other reported printable organic systems for X‐ray photodetection while also operating efficiently with zero applied bias. Complete X‐ray detectors fabricated by coupling the photodiode with a plastic scintillator are among the first flexible and fully tissue equivalent X‐ray detectors capable of operating without external bias. The response to X‐rays is energy independent between 50 keV and 1.2 MeV, with a detection sensitivity equivalent to inorganic direct X‐ray detectors and one of the fastest temporal responses ever reported for organic X‐ray detectors. The materials can be printed into arrays with a pixel pitch of 120 μm, providing 2D spatial detection. The devices are found to be highly stable with respect to time, mechanical flexing, and large (5 kGy) radiation doses. The new materials and fully tissue equivalent X‐ray detectors reported here provide stable, printable, flexible, and tissue equivalent detectors with a high radiolucency that are ideally suited for wearable applications, where simultaneous monitoring and high transmission of the X‐ray absorbed dose into the human body is required.

    Logan J. Forth, Mingqing Wang, Issy Braddock, Jia C. Khong, Rob Moss, Paul Sellin, Kwang L. Choy, Robert Speller, (2019)Sensitive X-ray Detectors Synthesised from CsPbBr3, In: 2019 IEEE NUCLEAR SCIENCE SYMPOSIUM AND MEDICAL IMAGING CONFERENCE (NSS/MIC) Institute of Electrical and Electronics Engineers (IEEE)

    The materials used in detection of high energy photons are of primary importance in the construction of efficient, cost effective and sensitive detectors. Current research into Perovskites for solar cell technology has stimulated interest in their potential alternative uses, one of which is in direct photon conversion radiation detectors, owed primarily to their high-Z elemental composition twinned with exceptional charge carrier transport properties. Here, the Perovskite CsPbBr3 has been synthesised through solution growth. The raw CsPbBr3 was a granular powder which was formed into disks of 8 mm diameter and 1-2 mm thickness by two methods: 1). the powders were pressed into pellets using a hydraulic press or 2). sealed in a quartz ampoule under vacuum and then melted and quenched to form a polycrystalline solid which was cut to size. Metallic contacts were deposited on the front and back faces to permit charge collection. The results from the pressed devices are promising, particularly given that the production method is cost effective, repeatable and scalable. The solid-from-melt devices show similar performance but further development is required to optimise the production method.

    Jessie A. Posar, Matthew Large, Saree Alnaghy, Jason R. Paino, Duncan J. Butler, Matthew J. Griffith, Sean Hood, Michael L. F. Lerch, Anatoly Rosenfeld, Paul J. Sellin, Susanna Guatelli, Marco Petasecca (2021)Towards high spatial resolution tissue-equivalent dosimetry for microbeam rathation therapy using organic semiconductors, In: Journal of Synchrotron Radiation28pp. 1444-1454 International Union of Crystallography

    Spatially fractionated ultra-high-dose-rate beams used during microbeam radiation therapy (MRT) have been shown to increase the differential response between normal and tumour tissue. Quality assurance of MRT requires a dosimeter that possesses tissue equivalence, high radiation tolerance and spatial resolution. This is currently an unsolved challenge. This work explored the use of a 500 nm thick organic semiconductor for MRT dosimetry on the Imaging and Medical Beamline at the Australian Synchrotron. Three beam filters were used to irradiate the device with peak energies of 48, 76 and 88 keV with respective dose rates of 3668, 500 and 209 Gy s(-1). The response of the device stabilized to 30% efficiency after an irradiation dose of 30 kGy, with a 0.5% variation at doses of 35 kGy and higher. The calibration factor after pre-irradiation was determined to be 1.02 +/- 0.005 mu Gy per count across all three X-ray energy spectra, demonstrating the unique advantage of using tissue-equivalent materials for dosimetry. The percentage depth dose curve was within +/- 5% of the PTW microDiamond detector. The broad beam was fractionated into 50 microbeams (50 mu m FHWM and 400 mu m centre-to-centre distance). For each beam filter, the FWHMs of all 50 microbeams were measured to be 51 +/- 1.4, 53 +/- 1.4 and 69 +/- 1.9 mu m, for the highest to lowest dose rate, respectively. The variation in response suggested the photodetector possessed dose-rate dependence. However, its ability to reconstruct the microbeam profile was affected by the presence of additional dose peaks adjacent to the one generated by the X-ray microbeam. Geant4 simulations proved that the additional peaks were due to optical photons generated in the barrier film coupled to the sensitive volume. The simulations also confirmed that the amplitude of the additional peak in comparison with the microbeam decreased for spectra with lower peak energies, as observed in the experimental data. The material packaging can be optimized during fabrication by solution processing onto a flexible substrate with a non-fluorescent barrier film. With these improvements, organic photodetectors show promising prospects as a cost-effective high spatial resolution tissue-equivalent flexible dosimeter for synchrotron radiation fields.

    Murat Kurudirek, Sinem V. Kurudirek, Nolan E. Hertel, Anna Erickson, Paul J. Sellin, Sharmistha Mukhopadhyay, Aykut Astam, Christopher J. Summers (2023)Vertically Well-Aligned ZnO Nanoscintillator Arrays with Improved Photoluminescence and Scintillation Properties, In: Materials16(20)6717 MDPI

    ZnO nanoarrays were grown via a low-temperature hydrothermal method. Solutions, each with different additive combinations, were prepared and evaluated. The effects of the additives involved in the growth procedure, i.e., ammonium hydroxide and sodium citrate, were studied in terms of the morphological, optical and scintillation properties of the ZnO nanostructures. Measurement of the nanorod (NR) length, corresponding photoluminescence (PL) and scintillation spectra and their dependence on the additives present in the solution are discussed. ZnO NRs grown on a silica substrate, whose UV transmission was found to be better than glass, showed high-quality structural and optical properties. It was found that the addition of sodium citrate significantly reduced defects and correspondingly increased the intrinsic near-band-edge (NBE) UV emission intensity at ~380 nm. To obtain high-quality nanostructures, samples were annealed in a 10% H2 + 90% N2 atmosphere. The anneal in the forming gas atmosphere enhanced the emission of the UV peak by reducing defects in the nanostructure. NRs are highly tapered towards the end of the structure. The tapering process was monitored using time growth studies, and its effect on PL and reflectance spectra are discussed. A good alpha particle response was obtained for the grown ZnO NRs, confirming its potential to be used as an alpha particle scintillator. After optimizing the reaction parameters, it was concluded that when ammonium hydroxide and sodium citrate were used, vertically well-aligned and long ZnO nanoarrays with highly improved optical and scintillation properties were obtained.

    Xin Liu, Meng Xu, Y Hao, J Fu, Fangbao Wang, B Zhang, Stephanie Bennett, Paul Sellin, W Jie, Ye Xu (2021)Solution-Grown Formamidinium Hybrid Perovskite (FAPbBr3) Single Crystals for α‑Particle and γ‑Ray Detection at Room Temperature, In: ACS Applied Materials and Interfaces13(13)pp. 15383-15390 American Chemical Society

    Compared with the widely reported MAPbBr3 single crystals, formamidinium-based (FA-based) hybrid perovskites FAPbBr3 (FPB) with superior chemical and structure stability are expected to be more efficient and perform as more reliable radiation detectors at room temperature. Here, we employ an improved inverse temperature crystallization method to grow FPB bulk single crystals, where issues associated with the retrograde solubility behavior are resolved. A crystal growth phase diagram has been proposed, and accordingly, growth parameters are optimized to avoid the formation of NH4Pb2Br5 secondary phase. The resulting FPB crystals exhibit a high resistivity of 2.8 × 109 Ω·cm and high electron and hole mobility–lifetime products (μτ) of 8.0 × 10–4 and 1.1 × 10–3 cm2·V–1, respectively. Simultaneously, the electron and hole mobilities (μ) are evaluated to be 22.2 and 66.1 cm2·V–1·s–1, respectively, based on the time-of-flight technique. Furthermore, a Au/FPB SC/Au detector is constructed that demonstrates a resolvable gamma peak from 59.5 keV 241Am γ-rays at room temperature for the first time. An energy resolution of 40.1% is obtained at 30 V by collecting the hole signals. These results demonstrate the great potential of FAPbBr3 as a hybrid material for γ-ray spectroscopy and imaging.

    B. Xiao, Qihao Sun, Fangbao Wang, SU WANG, B Zhang, Junjie Wang, W Jie, Paul J. Sellin, Ye Xu (2021)Towards superior X-ray detection performance of two-dimensional halide perovskite crystals by adjusting the anisotropic transport behavior, In: Journal of Materials Chemistry A: materials for energy and sustainability9(22)pp. 13209-13219 Royal Society of Chemistry

    Two-dimensional (2D) organic–inorganic hybrid halide perovskites have recently attracted extensive attention for electronic and optoelectronic applications due to their tunable properties and superior stability compared with their three-dimensional (3D) counterparts. Here, we report two kinds of organic cation (linear butylamine (BA) and branched isobutylamine (i-BA)) tailored CsPbBr3 crystals, namely (BA)2CsPb2Br7 and (i-BA)2CsPb2Br7, grown by the temperature-cooling method. The organic cations' adjustable anisotropic structure, optoelectronic properties and X-ray detection performance have been systematically investigated. By shortening the spacer cation from BA to i-BA, the degree of anisotropy in 2D perovskite crystals is decreased, which may be ascribed to the reduced interlayer distance and barrier height resulting from the enhanced electronic coupling between neighboring organic cations. In particular, the device based on the (BA)2CsPb2Br7 crystal along the ab plane exhibits superior X-ray sensitivity up to 13.26 mC Gy−1 cm−2 at a relatively low electric field of 2.53 V mm−1, owing to the multiple quantum well structure that restricts the charge carrier transport within the ab plane resulting in efficient charge collection. Simultaneously, a superior long-term working stability is obtained under a high X-ray dose rate of 278.4 μGy s−1. We anticipate that these findings will be helpful for the development of Ruddlesden–Popper perovskites for future research and applications.

    Bao Xiao, Fangbao Wang, Meng Xu, Xin Liu, Qihao Sun, Bin-Bin Zhang, Wanqi Jie, Paul Sellin, Yadong Xu (2020)Melt-grown large-sized Cs2TeI6 crystals for X-ray detection, In: CrystEngComm22(31)pp. 5130-5136 Royal Society of Chemistry

    Herein, we report the details of the synthesis and crystal growth of a lead-free perovskite derivative Cs2TeI6 crystal, which reveals long-term environmental stability. The synthesis process is optimized to obtain pure Cs2TeI6 polycrystals, and to eliminate the formation of residual CsI resulting from high vapor pressure. Subsequently, the Cs2TeI6 single crystal with dimensions of Φ10 mm × 55 mm is grown by the vertical Bridgman method. The as-grown 0-D structural Cs2TeI6 crystal exhibits a high resistivity of 9.92 × 1011 Ω cm, and resulting mobilities of 4.03 ± 0.33 cm2 V−1 s−1 and 9.40 ± 0.45 cm2 V−1 s−1 for electrons and holes, respectively. The Au/Cs2TeI6/Au device shows a good response for optoelectronic and X-ray detection, with a relatively high X-ray sensitivity of 27.8 μC Gy−1 cm−2 and a low detection limit of 72.5 nGy s−1.

    Dou Zhao, Meng Xu, Bao Xiao, Binbin Zhang, Lei Yan, Guoqiang Zeng, Alain Dubois, Paul Sellin, Wanqi Jie, Yadong Xu (2020)Purely organic 4HCB single crystals exhibiting high hole mobility for direct detection of ultralow-dose X-radiation, In: Journal of Materials Chemistry A8(10)pp. 5217-5226 Royal Society of Chemistry

    Precise detection of low-dose X-radiation using purely organic direct detectors is vital for tissue-equivalent dosimeters and safety control in medical radiation treatment, but it still remains a challenge. Here, we report a promising organic radiation detector based on 4-hydroxycyanobenzene (4HCB, C7H5NO) single crystals. Plate-like 4HCB single crystals up to 18 × 15 × 1.2 mm3 in size are obtained by an optimized solvent evaporation method, thanks to the clarification of the two-dimensional nucleation growth mechanism. After post surface treatment, the leakage current of the 4HCB detector is no larger than 0.1 pA under an electric field of 600 V cm−1. The fabricated detectors show a capability of detecting 241Am 5.49 MeV α particles with a well resolved full energy peak. The calculated hole mobility (μh) and hole mobility lifetime product (μτ)h are 3.40 cm2 V−1 s−1 and 8.50 × 10−5 cm2 V−1, respectively. Simultaneously, under a 50 kVp X-ray beam, a detection limit as low as 0.29 μGyair s−1 with a high sensitivity of 10 μC Gyair−1 cm−2 is achieved in the bias range of 40–100 V, contributing to a superior X-ray imaging capability with a spatial resolution of 0.9 lp mm−1 at a low-dose rate (below 150 μGyair s−1) of exposure.

    S Pani, SC Saifuddin, FIM Ferreira, PJ Sellin, JW Scuffham, P Stratmann, MD Wilson, MC Veale, S Bell, P Seller, RJ Cernik (2012)Optimization of K-edge subtraction imaging using a pixellated spectroscopic detector, In: IEEE Nuclear Science Symposium Conference Recordpp. 3063-3066

    Conventional K-edge subtraction imaging is based around the acquisition of two separate images at energies respectively below and above the K-edge of a contrast agent. This implies increased patient dose with respect to a conventional procedure and potentially incorrect image registration due to patient motion. © 2012 IEEE.

    JW Scuffham, MD Wilson, DD Duarte, MC Veale, S Bell, P Seller, S Pani, PJ Sellin, RJ Cernik (2012)Evaluation of a new small-pixel CdTe spectroscopic detector in dual-tracer SPECT brain imaging, In: IEEE Nuclear Science Symposium Conference Recordpp. 3115-3118

    Simultaneous dual-tracer brain imaging has the potential to shorten patient pathways in the diagnosis of neurodegenerative diseases, but the poor spectral resolution of conventional gamma cameras limits the utility of this technique. Solid state detectors offer improved capability to distinguish between two radioisotopes, but the technology has yet to be fully evaluated in the field of scintigraphic neuroimaging. We present imaging results for a new small-pixel CdTe detector in simultaneous dual-radioisotope scintigraphy of a brain phantom containing Tc-99m and I-123. Quantitative comparison is made with images of the same phantom obtained using a conventional gamma camera. We show that the CdTe detector offers improved scatter rejection and greatly reduced cross-talk between the energy windows. In addition, the new detector is able to resolve low-energy fluorescence x-rays from the source, which could be incorporated into SPECT reconstruction algorithms. Details of the planned development of the detector into a clinical demonstrator are discussed. © 2012 IEEE.

    FA Boroumand, M Zhu, AB Dalton, JL Keddie, PJ Sellin, JJ Gutierrez (2007)Direct x-ray detection with conjugated polymer devices, In: APPLIED PHYSICS LETTERS91(3)ARTN 0pp. ?-? AMER INST PHYSICS
    R. Hawrami, E. Ariesanti, A. Burger, P. Sellin (2022)Latest growth of large diameter Tl-based elpasolite scintillation crystals, In: Optical materials128112324 Elsevier

    Elpasolite scintillators play an important role in radiation detection and imaging. Novel Tl-based elpasolite scintillators such as Ce-doped Tl2LiYCl6 (TLYC) have been developed as excellent Tl-based dual mode gamma and neutron detectors. This paper presents a successful high yield growth and gamma-ray characterization of large diameter (1-inch to 1.5-inch diameter) single, crack-free, and transparent TLYC crystals at Fisk University. Energy resolution of 4.2% (FWHM) at 662 keV and light yield of 26,000 photons/MeV are measured. As-processed and hermetically packaged TLYC samples are characterized for their gamma-ray energy resolutions, light yields, non proportionality behaviors and decay times. Successful growth of 1-inch diameter (Cs,Tl)(2)LiLaBr6:Ce crystals are also shown. The best result is obtained when the content of Cs+ is larger than Tl+. Energy resolution of 3.4% (FWHM) at 662 keV is measured for (Cs,Tl)(2)LiLaBr6:Ce for 75% Cs-to-25% Tl ratio.

    A Alruhaili, PJ Sellin, A Lohstroh, V Boothman, P Veeramani, MC Veale, KJS Sawhney, V Kachkanov (2015)Development of a CZT drift ring detector for X and gamma ray spectroscopy, In: JOURNAL OF INSTRUMENTATION10ARTN Ppp. ?-? IOP PUBLISHING LTD
    P Avella, A De Santo, A Lohstroh, MT Sajjad, PJ Sellin (2011)A study of timing properties of Silicon Photomultipliers, In: Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment Elsevier

    Silicon Photomultipliers (SiPM) are solid-state pixelated photodetectors. Lately these sensors have been investigated for Time of Flight Positron Emission Tomography (ToF-PET) applications, where very good coincidence time resolution of the order of hundreds of picoseconds imply spatial resolution of the order of cm in the image reconstruction. The very fast rise time typical of the avalanche discharge improves the time resolution, but can be limited by the readout electronics and the technology used to construct the device. In this work the parameters of the equivalent circuit of the device that directly affect the pulse shape, namely the quenching resistance and capacitance and the diode and parasitic capacitances, were calculated. The mean rise time obtained with different preamplifiers was also measured.

    V Dedic, J Franc, M Rejhon, R Grill, J Zazvorka, PJ Sellin (2015)De-polarization of a CdZnTe radiation detector by pulsed infrared light, In: APPLIED PHYSICS LETTERS107(3)ARTN 03210 AMER INST PHYSICS
    J Franc, V Dedic, PJ Sellin, R Grill, P Veeramani (2011)Radiation induced control of electric field in Au/CdTe/In structures, In: APPLIED PHYSICS LETTERS98(23)ARTN 2pp. ?-? AMER INST PHYSICS
    S Wang, P Sellin, A Lohstroh (2005)Alpha particle transient response of a polycrystalline diamond detector, In: CARBON43(15)pp. 3167-3171 PERGAMON-ELSEVIER SCIENCE LTD
    M.P. Taggart, M. Nakhostin, P.J. Sellin (2019)Investigation into the potential of GAGG:Ce as a neutron detector, In: Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment931pp. 121-126 Elsevier

    In this work we investigate the potential use as a thermal neutron detector of cerium-doped gadolinium aluminium gallium garnet (GAGG:Ce) coupled to a silicon photomultiplier (SiPM). The response to thermal neutrons has been measured, with two strong low energy neutron-indicative peaks clearly identifiable below 100 keV and additional γ peaks at higher energies. The neutron-related peaks are produced by a combination of contributions from excited states of the two isotopes 156Gd and 158Gd which can be clearly resolved in our GAGG scintillation detector. In particular, two peaks due to neutron-induced γ-ray emission are observed at approximately 82 keV and 260 keV, with best achieved energy resolutions of 24.1 ± 0.2% and 22.7 ± 0.7% respectively. Three different scintillator volumes (0.1 cm3, 0.4 cm3, and 1 cm3) were investigated and the respective results for each configuration will be presented. Our findings show that a GAGG-SiPM based detector can be used as a compact, efficient thermal neutron detector in a low γ-ray contamination environment.

    V Boothman, A Alruhaili, V Perumal, P Sellin, A Lohstroh, K Sawhney, S Kachanov (2015)Charge transport optimization in CZT ring-drift detectors, In: JOURNAL OF PHYSICS D-APPLIED PHYSICS48(48)ARTN 48510 IOP PUBLISHING LTD
    C Allwork, D Kitou, S Chaudhuri, PJ Sellin, P Seller, MC Veale, N Tartoni, P Veeramani (2012)X-Ray Beam Studies of Charge Sharing in Small Pixel, Spectroscopic, CdZnTe Detectors, In: IEEE TRANSACTIONS ON NUCLEAR SCIENCE59(4)pp. 1563-1568 IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
    Silvia Pani, SC Saifuddin, Filipa Ferreira, N Henthorn, P Sellers, Paul Sellin, P Stratmann, MC Veale, MD Wilson, RJ Cernik (2017)High energy resolution hyperspectral X-ray imaging for low-dose contrast-enhanced digital mammography, In: IEEE Transactions on Medical Imaging36(9)pp. 1784-1795 IEEE

    Contrast-enhanced digital mammography (CEDM) is an alternative to conventional X-ray mammography for imaging dense breasts. However, conventional approaches to CEDM require a double exposure of the patient, implying higher dose and risk of incorrect image registration due to motion artifacts. A novel approach is presented, based on hyperspectral imaging, where a detector combining positional and high-resolution spectral information (in this case based on Cadmium Telluride) is used. This allows simultaneous acquisition of the two images required for CEDM. The approach was tested on a custom breast-equivalent phantom containing iodinated contrast agent (Niopam 150®). Two algorithms were used to obtain images of the contrast agent distribution: K-edge subtraction (KES), providing images of the distribution of the contrast agent with the background structures removed, and a dual-energy (DE) algorithm, providing an iodine-equivalent image and a water-equivalent image. The high energy resolution of the detector allowed the selection of two close-by energies, maximising the signal in KES images and enhancing the visibility of details with low surface concentration of contrast agent. DE performed consistently better than KES in terms of contrast-to-noise ratio of the details; moreover, it allowed a correct reconstruction of the surface concentration of the contrast agent in the iodine image. Comparison with CEDM with a conventional detector proved the superior performance of hyperspectral CEDM in terms of the image quality/dose trade-off.

    G Prekas, PJ Sellin, P Veeramani, AW Davies, A Lohstroh, ME Ozsan, MC Veale (2010)Investigation of the internal electric field distribution under in situ x-ray irradiation and under low temperature conditions by the means of the Pockels effect, In: JOURNAL OF PHYSICS D-APPLIED PHYSICS43(8)ARTN 0pp. ?-? IOP PUBLISHING LTD
    YM Abubakar, A Lohstroh, PJ Sellin (2015)Stability of Silicon carbide particle detector performance at elevated temperatures, In: IEEE Transactions on Nuclear Science62(5)pp. 2360-2366 IEEE

    The alpha spectroscopy performance and electric current stability of 4H-silicon carbide Schottky devices with 50 μm epitaxial layer was examined at temperatures between 300 to 500 K at 50 K intervals. An activation energy of 5.98 ±0.64 meV was extracted from temperature dependent resistivity measurements. The Schottky barrier height decreases from 1.33 eV at 300 K to 1.11 eV at 500 K and the ideality factor increases from 1.17 at 300 K to 1.79 at 500 K. The reverse bias leakage currents stabilizes faster at higher temperatures. The charge collection efficiency is above 90% for temperatures up to 500 K. Pulse height spectra collected for 24 hours at constant voltage and temperature show improvements with time within the first 8 hours and remained stable for the remainder of the acquisition time. The peak width of the alpha spectra reduces significantly with increasing temperature at applied bias voltages below 50 V, which indicates that leakage currents are not the limiting factor in those conditions even at 500 K in our set up. So far, the devices indicate reasonable stability for extended periods of operation and highlight possible applications in harsh radiation media.

    Q Jiang, AW Brinkman, P Veeramani, PJ Sellin (2010)Epitaxial Growth of High-Resistivity CdTe Thick Films Grown Using a Modified Close Space Sublimation Method, In: JAPANESE JOURNAL OF APPLIED PHYSICS49(2)UNSP 0pp. ?-? JAPAN SOC APPLIED PHYSICS
    A Lohstroh, PJ Sellin, SG Wang, AW Davies, J Parkin, RW Martin, PR Edwards (2007)Effect of dislocations on charge carrier mobility-lifetime product in synthetic single crystal diamond, In: APPLIED PHYSICS LETTERS90(10)ARTN 1pp. ?-? AMER INST PHYSICS

    The authors report correlations between variations in charge transport of electrons and holes in synthetic single crystal diamond and the presence of nitrogen impurities and dislocations. The spatial distribution of these defects was imaged using their characteristic luminescence emission and compared with maps of carrier drift length measured by ion beam induced charge imaging. The images indicate a reduction of electron and hole mobility-lifetime product due to nitrogen impurities and dislocations. Very good charge transport is achieved in selected regions where the dislocation density is minimal. (c) 2007 American Institute of Physics.

    Y Xu, W Jie, T Wang, P Yu, Y He, L Fu, Paul Sellin (2011)Morphology evolution of micron-scale secondary phases in CdZnTe crystals grown by vertical Bridgman method, In: Journal of Alloys and Compounds509(5)pp. 2338-2342 Elsevier
    Y Xu, L Xu, T Wang, G Zha, L Fu, W Jie, P Sellin (2009)Charge transport performance of high resistivity CdZnTe crystals doped with In/Al, In: Journal of Semiconductors30(8)082002
    I Jurewicz, P Worajittiphon, AA King, PJ Sellin, JL Keddie, AB Dalton (2011)Locking carbon nanotubes in confined lattice geometries--a route to low percolation in conducting composites., In: J Phys Chem B115(20)pp. 6395-6400

    A significant reduction in the electrical percolation threshold is achieved by locking carbon nanotubes (CNTs) in a predominantly hexagonally close-packed (HCP) colloidal crystal lattice of partially plasticized latex particles. Contrary to other widely used latex processing where CNTs are randomly distributed within the latex matrix, for the first time, we show that excluding CNTs from occupying the interior volume of the latex particles promotes the formation of a nonrandom segregated network. The electrical percolation threshold is four times lower in an ordered segregated network made with colloidal particles near their glass transition temperature (T(g)) in comparison to in a random network made with particles at a temperature well above the T(g). This method allows for a highly reproducible way to fabricate robust, stretchable, and electrically conducting thin films with significantly improved transparency and lattice percolation at a very low CNT inclusion which may find applications in flexible and stretchable electronics as well as other stretchable technologies. For instance, our technology is particularly apt for touch screen applications, where one needs homogeneous distribution of the conductive filler throughout the matrix.

    F Schirru, A Lohstroh, J Sellin, S Nara Singh, L Scruton, A Bentley, P Fox, A Banu, M McCleskey, T Roeder, E Simmons, A Alharbi, L Trache, M Freer, D Parker, A Banu (2012)Development of large area polycrystalline diamond detectors for fast timing application of high-energy heavy-ion beams, In: Journal of Instrumentation7(5)P05005 Institute of Physics

    We have studied the effects of electrode fabrication and detector capacitance on the time resolution of large area electronic grade polycrystalline chemical vapour deposited diamond sensors that are suitable for time of flight measurements of heavy ions at relativistic velocities. Sensors were prepared both in house, with Al or Au metal contacts, and commercially fabricated with Au/diamond-like carbon contacts. He, Ar and a mixture of Ne and O beams at 16.3, 33.5 and 21-23 MeV/u, respectively were used on these devices whilst arranged in transmission geometry. Signal processing only began over one meter away from the sensors. The present approach, where we have large-area/large capacitance multi-strip detectors with processing electronics at some distance from the target, is compatible with anticipated space limitations in particle- identification and tracking setups at existing and planned nuclear fragmentation facilities. In a systematic study under these conditions, we demonstrate that the time resolution is limited by detector capacitance and energy deposition in the sensors. An intrinsic time resolution σ = (44±5) ps was achieved for a diamond detector of ∼ 14 pF capacitance. We conclude that, once further refinements are made, a large area time of flight detection system using polycrystalline diamond detectors would be able to provide time resolutions better than 40 ps, approaching the requirement for particle-identification in relativistic fragmentation experiments, such as those at the facility for antiproton and ion research, FAIR. © 2012 IOP Publishing Ltd and Sissa Medialab srl.

    SA Nouh, AA Naby, PJ Sellin (2007)Modification induced by proton irradiation in Makrofol-DE polycarbonate, In: RADIATION MEASUREMENTS42(10)pp. 1655-1660 PERGAMON-ELSEVIER SCIENCE LTD
    M Descovich, PJ Nolan, AJ Boston, J Dobson, S Gros, JR Cresswell, J Simpson, I Lazarus, PH Regan, JJ Valiente-Dobon, P Sellin, CJ Pearson (2005)The position response of a large-volume segmented germanium detector, In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT553(3)pp. 512-521 ELSEVIER SCIENCE BV
    CA Mills, Y-F Chan, A Intaniwet, A Nisbet, JL Keddie, PJ Sellin (2013)Direct Detection of 6 MV X-rays from a Medical Linear Accelerator using a Semiconducting Polymer Diode, In: Physics in Medicine and Biology58(13)pp. 4471-4482 Institute of Physics

    Recently, a new family of low-cost x-radiation detectors have been developed, based on semiconducting polymer diodes, which are easy to process, mechanically flexible, relatively inexpensive, and able to cover large areas. To test their potential for radiotherapy applications such as beam monitors or dosimeters, as an alternative to the use of solid-state inorganic detectors, we present the direct detection of 6 MV x-rays from a medical linear accelerator using a thick film, semiconducting polymer detector. The diode was subjected to 4 ms pulses of 6 MV x-rays at a rate of 60 Hz, and produces a linear increase in photocurrent with increasing dose rate (from 16.7 to 66.7 mGy s(−1)). The sensitivity of the diode was found to range from 13 to 20 nC mGy(−1) cm(−3), for operating voltages from −50 to −150 V, respectively. The diode response was found to be stable after exposure to doses up to 15 Gy. Testing beyond this dose range was not carried out. Theoretical calculations show that the addition of heavy metallic nanoparticles to polymer films, even at low volume fractions, increases the x-ray sensitivity of the polymer film/nanoparticle composite so that it exceeds that for silicon over a wide range of x-ray energies. The possibility of detecting x-rays with energies relevant to medical oncology applications opens up the potential for these polymer detectors to be used in detection and imaging applications using medical x-ray beams.

    Mohammad Nakhostin, Philip Walker, Paul Sellin (2010)Time walk correction of CdTe detectors using depth sensing technique, In: Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment621(1-3)pp. 506-512 Elsevier

    A digital timing method aiming to minimize the time walk caused by the depth-dependent pulse shape variations in CdTe detectors has been developed. Detector pulses are digitized at the preamplifier stage and a full digital process is carried out to deduce and correct the time walk according to the interaction depth. A time resolution of 6.52 ns FWHM at an energy threshold of 150 keV with a CdTe detector (10×10×1 mm3) is achieved, which is close to the intrinsic resolution of the detector. The method improves the time resolution with no loss of detection efficiency and it is easy to implement. It is confirmed that the slow mobility and the short lifetime of the holes are major obstacles for further improvement in the timing performance of the CdTe detectors. The method is applicable to any semiconductor detector.

    Leqi Li, Xin Liu, Hongjian Zhang, Binbin Zhang, Wanqi Jie, Paul J. Sellin, Chuanhao Hu, Guoqiang Zeng, Yadong Xu (2019)Enhanced X-ray Sensitivity of MAPbBr3 Detector by Tailoring the Interface-States Density, In: ACS Applied Materials & Interfaces11(7)pp. 7522-7528 American Chemical Society

    An important factor for the high performance of light-harvesting devices is the presence of surface trappings. Therefore, understanding and controlling the carrier recombination of the organic–inorganic hybrid perovskite surface is critical for the device design and optimization. Here, we report the use of aluminum zinc oxide (AZO) as the anode to construct a p–n junction structure MAPbBr3 nuclear radiation detector. The AZO/MAPbBr3/Au detector can tolerate an electrical field of 500 V·cm–1 and exhibit a very low leakage current of ∼9 nA, which is 1 order of magnitude lower than that of the standard ohmic contact device. The interface state density of AZO/MAPbBr3 contact was reduced from 2.17 × 1010 to 8.7 × 108 cm–2 by annealing at 100 °C under an Ar atmosphere. Consequently, a photocurrent to dark current ratio of 190 was realized when exposed to a green light-emitting diode with a wavelength of 520 nm (∼200 mW·cm–2). Simultaneously, a high X-ray sensitivity of ∼529 μC·Gyair–1 cm–2 was achieved under 80 kVp X-ray at an electric field of 50 V·cm–1. These results demonstrate the use of surface engineering to further optimize the performance of MAPbBr3 detectors, which have many potential applications in medical and security detection with low radiation dose brought to the human body.

    A Lohstroh, PJ Sellin, SG Wang, AW Davies, JM Parkin (2007)Mapping of polarization and detrapping effects in synthetic single crystal chemical vapor deposited diamond by ion beam induced charge imaging, In: JOURNAL OF APPLIED PHYSICS101(6)ARTN 0pp. ?-? AMER INST PHYSICS

    Diamond has been regarded as a promising radiation detector material for use as a solid state ionizing chamber for decades. The parameters degrading the charge transport from what is expected from an ideal crystal are still not completely understood. Recently, synthetic chemical vapor deposited (CVD) single crystal diamond has become available, offering the opportunity to study the properties of synthesized material independent of grain boundaries. We have studied the charge transport of a synthetic single crystal diamond with alpha-particle induced charge transients as a function of temperature and established the presence of a shallow hole trap with an activation energy of 0.29 +/- 0.02 eV in some parts of the detector. Ion beam induced charge imaging has been used to study the spatial variations of the charge transport in a synthetic single crystal diamond. Pulses influenced by the shallow hole trap had their origin close to the substrate/CVD interface of the sample. They could be clearly distinguished from pulses affected by reduced charge carrier velocities due to polarization phenomena, which varied systematically with the growth direction of the CVD diamond material.

    M.P. Taggart, P.J. Sellin (2018)Comparison of the pulse shape discrimination performance of plastic scintillators coupled to a SiPM, In: Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment908pp. 148-154 Elsevier

    We report on the pulse shape discrimination (PSD) performance of plastic scintillators manufactured by Eljen Corporation and Amcrys. In this study we investigate the fast neutron and gamma performance of the plastic scintillators when coupled to the SensL J-series silicon photomultiplier (SiPM) and read out with fast waveform digitisers with an ADC resolution of 14-bits and a sample rate of 500 MS/s. The investigation observes a significant PSD performance increase for the SensL J-series SiPM in comparison to the previous C-series, and also for the latest variants of plastic scintillator from both suppliers. Analysis was performed using a Synchronous Charge Integration Pulse Shape Discrimination (PSD) algorithm which was applied to data acquired from a mixed fast neutron/gamma radiation field from an AmBe neutron source. The collected pulses were processed offline with the energy and PSD parameters calculated. The quality of the PSD performance was characterised by a common figure of merit (FoM). The best n- separation was found by the newer Eljen EJ-276 scintillator with a FoM value of 3.03 ± 0.03 at an energy of 1.5 MeV gamma equivalent. The Amcrys UPS-113NG material achieved a FoM value of 2.60 ± 0.04.

    A Simon, C Jeynes, RP Webb, R Finnis, Z Tabatabian, PJ Sellin, MBH Breese, DF Fellows, R van den Broek, RM Gwilliam (2004)The new Surrey ion beam analysis facility, In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION B-BEAM INTERACTIONS WITH MATERIALS AND ATOMS219pp. 405-409 ELSEVIER SCIENCE BV

    In this letter, pronounced hysteresis loops were observed in single-walled carbon nanotube-based field-effect transistors (CNTFETs). The shift in threshold voltage was found to increase with increasing gate voltage sweep ranges. A significant enhancement in the charge storage stability over 14 days was obtained at room temperature after a two-stage hydrogen and air annealing process was applied to the CNTFETs. The passivation of interface traps by annealing in hydrogen and the removal of physisorption solvent molecules by annealing in air are suggested to be responsible for the improvement of the charge storage stability.

    SG Wang, P Sellin, A Lohstroh (2006)Temperature-dependent hole detrapping for unprimed polycrystalline chemical vapor deposited diamond, In: APPLIED PHYSICS LETTERS88(2)ARTN 0pp. ?-? AMER INST PHYSICS
    MBH Breese, E Vittone, G Vizkelethy, PJ Sellin (2007)A review of ion beam induced charge microscopy, In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION B-BEAM INTERACTIONS WITH MATERIALS AND ATOMS264(2)pp. 345-360 ELSEVIER SCIENCE BV
    MAE Abdel-Rahman, A Lohstroh, PJ Sellin (2011)The effect of annealing on the X-ray induced photocurrent characteristics of CVD diamond radiation detectors with different electrical contacts, In: PHYSICA STATUS SOLIDI A-APPLICATIONS AND MATERIALS SCIENCE208(9)pp. 2079-2086 WILEY-BLACKWELL
    PJ Sellin, MBH Breese, AP Knights, LC Alves, RS Sussmann, AJ Whitehead (2000)Imaging of charge transport in polycrystalline diamond using ion-beam-induced charge microscopy, In: APPLIED PHYSICS LETTERS77(6)pp. 913-915 AMER INST PHYSICS
    PJ Sellin, A Lohstroh, A Simon, MBH Breese (2004)Digital IBIC-new spectroscopic modalities for ion-beam-induced charge imaging, In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT521(2-3)pp. 600-607 ELSEVIER SCIENCE BV
    SG Wang, PJ Sellin, A Lohstroh, Q Zhang (2005)Performance improvement of polycrystalline diamond ultraviolet photodetectors by room-temperature plasma treatment, In: APPLIED PHYSICS LETTERS86(9)ARTN 0pp. ?-? AMER INST PHYSICS
    SG Wang, PJ Sellin, Q Zhang, DJJ Yang (2005)Nonvolatile memory from single-walled carbon nanotube-based field effect transistors, In: CURRENT NANOSCIENCE1(1)pp. 43-46 BENTHAM SCIENCE PUBL LTD
    A Lohstroh, PJ Sellin, SG Wang, AW Davies, JM Parkin (2007)Mapping of polarization and detrapping effects in synthetic single crystal chemical vapor deposited diamond by ion beam induced charge imaging, In: JOURNAL OF APPLIED PHYSICS101(6)ARTN 0pp. ?-? AMER INST PHYSICS
    S Gkoumas, A Lohstroh, PJ Sellin (2009)Low temperature time of flight mobility measurements on synthetic single crystal diamond, In: DIAMOND AND RELATED MATERIALS18(11)pp. 1338-1342 ELSEVIER SCIENCE SA
    A Lohstroh, PJ Sellin, A Simon (2004)High-resolution mapping of the mobility-lifetime product in CdZnTe using a nuclear microprobe, In: JOURNAL OF PHYSICS-CONDENSED MATTER16(2)PII S0pp. S67-S73 IOP PUBLISHING LTD
    Prodromos Chatzispyroglou, Joseph L. Keddie, Paul J. Sellin (2020)Boron-loaded Polymeric Sensor for the Direct Detection of Thermal Neutrons, In: ACS Applied Materials & Interfaces12(29)pp. 33050-33057 American Chemical Society

    We report the first demonstration of a solid-state, direct-conversion sensor for thermal neutrons based on a polymer/inorganic nanocomposite. Sensors were fabricated from ultra-thick films of poly(triarylamine) (PTAA) semiconducting polymer, with thicknesses up to 100 μm. Boron nanoparticles were dispersed throughout the PTAA film to provide the neutron stopping power arising from the high thermal neutron cross-section of the isotope Boron-10. To maximize the quantum efficiency of the sensor to thermal neutrons, a high volume fraction of homogeneously dispersed boron nanoparticles was achieved in the thick PTAA film using an optimized processing method. Thick active layers were realized using a high molecular weight of the PTAA so that molecular entanglements provide a high cohesive strength. A non-ionic surfactant was used to stabilize the boron dispersion in solvent and hence suppress the formation of agglomerates and associated electrical pathways. Boron nanoparticle loadings of up to ten volume percent were achieved, with thermal neutron quantum efficiency estimates up to 6% resulting. The sensors' neutron responses were characterized under a high flux thermal neutron exposure, showing a linear correlation between the response current and the thermal neutron flux. Polymer-based boron nanocomposite sensors offer a new neutron detection technology that uses low-cost, scalable solution processing, and provides an alternative to traditional neutron sensors that use rare isotopes, such as Helium-3.

    A Intaniwet, CA Mills, PJ Sellin, M Shkunov, JL Keddie (2010)Achieving a Stable Time Response in Polymeric Radiation Sensors under Charge Injection by X-rays, In: ACS APPL MATER INTER2(6)pp. 1692-1699 AMER CHEMICAL SOC

    Existing inorganic materials for radiation sensors suffer from several drawbacks, including their inability to cover large curved areas, lack of tissue equivalence toxicity, and mechanical inflexibility. As an alternative to inorganics, poly(triarylamine) (PTAA) diodes have been evaluated for their suitability for detecting radiation via the direct creation of X-ray induced photocurrents. A single layer of PTAA is deposited on indium tin oxide (ITO) substrates, with top electrodes selected from Al, Au, Ni, and Pd. The choice of metal electrode has a pronounced effect on the performance of the device; there is a direct correlation between the diode rectification factor and the metal-PTAA barrier height. A diode with an Al contact shows the highest quality of rectifying junction, and it produces a high X-ray photocurrent (several nA) that is stable during continuous exposure to 50 kV Mo K alpha X-radiation over long time scales, combined with a high signal-to-noise ratio with fast response times of less than 0.25 s. Diodes with a low band gap, 'Ohmic' contact, such as ITO/PTAA/Au, show a slow transient response. This result can be explained by the build-up of space charge at the metal-PTAA interface, caused by a high level of charge injection due to X-ray-induced carriers. These data provide new insights into the optimum selection of metals for Schottky contacts on organic materials, with wider applications in light sensors and photovoltaic devices.

    J Franc, V Dedic, M Rejhon, J Zazvorka, P Praus, J Tous, PJ Sellin (2015)Control of electric field in CdZnTe radiation detectors by above-bandgap light, In: JOURNAL OF APPLIED PHYSICS117(16)ARTN 16570 AMER INST PHYSICS
    Y Xu, W Jie, PJ Sellin, T Wang, L Fu, G Zha, P Veeramani (2009)Characterization of CdZnTe Crystals Grown Using a Seeded Modified Vertical Bridgman Method, In: IEEE TRANSACTIONS ON NUCLEAR SCIENCE56(5)pp. 2808-2813 IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
    DJ Yang, SG Wang, Q Zhang, PJ Sellin, G Chen (2004)Thermal and electrical transport in multi-walled carbon nanotubes, In: PHYSICS LETTERS A329(3)pp. 207-213 ELSEVIER SCIENCE BV
    A Intaniwet, JL Keddie, M Shkunov, PJ Sellin (2011)High charge-carrier mobilities in blends of poly(triarylamine) and TIPS-pentacene leading to better performing X-ray sensors, In: Organic Electronics12(11)pp. 1903-1908 Elsevier

    A new class of X-ray sensor – in which there is a blend of poly(triarylamine) (PTAA) and 6,13-bis(triisopropylsilylethynyl) (TIPS)-pentacene in the active layer of a diode structure – has been developed. The crystalline pentacene provides a fast route for charge carriers and leads to enhanced performance of the sensor. The first time-of-flight charge-carrier mobility measurement of this blend is reported. The mobility of PTAA and TIPS-pentacene in a 1:25 molar ratio was found to be 2.2 × 10−5 cm2 V−1 s−1 (averaged for field strengths between 3 × 104 and 4 × 105 V cm−1), which is about 17 times higher than that obtained in PTAA over the same range of field strengths. This higher mobility is correlated with a fourfold increase in the X-ray detection sensitivity in the PTAA:TIPS-pentacene devices.

    PJ Sellin, MBH Breese (2001)Spectroscopic response of coplanar diamond alpha particle detectors, In: IEEE TRANSACTIONS ON NUCLEAR SCIENCE48(6)PII S0018-pp. 2307-2312 IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
    PJ Sellin, G Prekas, J Franc, R Grill (2010)Electric field distributions in CdZnTe due to reduced temperature and x-ray irradiation, In: APPLIED PHYSICS LETTERS96(13)ARTN 1pp. ?-? AMER INST PHYSICS
    PA Bryant, A Lohstroh, PJ Sellin (2013)Electrical characteristics and fast neutron response of semi-insulating bulk silicon carbide, In: IEEE Transactions on Nuclear Science60(2)pp. 1432-1435 IEEE

    The electrical characteristics and fast neutron response of a High Temperature Chemical Vapour Deposition (HTCVD) grown semi-insulating bulk SiC wafer has been measured. Current - Voltage measurements demonstrated a low leakage current in the region of 10 to 10 A with a bulk resistivity of at least 10 - 10 Ω.cm. Alpha particle spectroscopy measurements demonstrated an electron charge collection efficiency of up to 90% with reasonable reproducibility of the acquired spectra. Evidence of (incident particle) rate dependent polarisation was seen following a constant applied bias combined with alpha irradiation over a period of time (order of tens of minutes). The ability of the wafer to detect fast neutrons was demonstrated and a comparison drawn with the MCNPX simulated response of a bulk SiC device. Comparing the MCNPX simulated response of a bulk SiC device to that of a silicon device suggests a superior ability to detect fast neutrons with an intrinsic efficiency 1.7 times that of silicon. © 1963-2012 IEEE.

    Y Xu, PJ Sellin, A Lohstroh, W Jie, T Wang, C Mills, P Veeramani, M Veale (2009)Comparison of the x-ray spectroscopy response and charge transport properties of semi-insulating In/Al doped CdZnTe crystals, In: JOURNAL OF APPLIED PHYSICS105(8)ARTN 0pp. ?-? AMER INST PHYSICS
    M. Nakhostin, M.P. Taggart, P.J. Sellin (2019)A digital pulse shortening method for the mitigation of pulse pile-up effect in scintillation radiation detectors, In: Journal of Instrumentation14P04012pp. 1-9 IOP Publishing

    The pulse pile-up effect can significantly degrade the spectroscopic performance of scintillation radiation detectors at high counting rates. This paper reports on a digital pulse processing method for shortening the duration of scintillation pulses, thereby alleviating the pulse pile-up effect. The method operates based on replacing the decay-time constant of the scintillation pulses with a shorter decay-time constant. The details of the digital algorithm are presented and the performance of the method at a high counting rate of 795 kHz is experimentally examined with a NaI(Tl) detector. The effects of the pulse shortening on the spectroscopic performance of the system are also discussed.

    SD Jastaniah, PJ Sellin (2004)Digital techniques for n/gamma pulse shape discrimination and capture-gated neutron spectroscopy using liquid scintillators, In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT517(1-3)pp. 202-210 ELSEVIER SCIENCE BV
    A Lohstroh, PJ Sellin, SG Wang, AW Davies, J Parkin, RW Martin, PR Edwards (2007)Effect of dislocations on charge carrier mobility-lifetime product in synthetic single crystal diamond, In: APPLIED PHYSICS LETTERS90(10)ARTN 1pp. ?-? AMER INST PHYSICS
    JW Scuffham, JW Scuffham, PJ Sellin, MD Wilson, P Seller, MC Veale, SDM Jacquesd, RJ Cernik (2012)A CdTe detector for hyperspectral SPECT imaging, In: Journal of Instrumentation7(8)

    A Cadmium Telluride (CdTe) detector has been developed for multiple-radioisotope SPECT imaging. The 22 cm detector has 8080 pixels on a 250 mm pitch and a three-side buttable design so that it can be tiled into larger arrays. The detector is termed hyperspectral as it measures the energy of every photon that interacts in the CdTe to give fully spectroscopic information from 5-200 keV in each pixel. The detector has been tested for applications in multipleradioisotope SPECT imaging using a 1mm diameter pinhole configuration and standard phantom test objects containing Tc-99m, I-123 and Ga-67. The detector has an average pixel energy resolution (FWHM) of 0.75% at the I-123 photopeak of 159 keV. We demonstrate the system's capability of resolving spatial features of 2 mm, although the spatial resolution of the detector is limited only by the pixel size and pinhole magnification factor. These characteristics are superior to alternative detectors currently in use in clinical SPECT systems. When imaging multiple radioisotopes simultaneously, we show that there is very little cross-talk between adjacent photopeaks, leading to superior image contrast. The detector is also capable of resolving fluorescence x-rays from the radioactive source, which could be used to improve image count statistics or derive information about the attenuation properties of the source. The performance presented here, and the ability to tile the detector modules to create a clinically useful field of view, makes this technology a strong candidate to be used in future solid-state SPECT cameras. © 2012 IOP Publishing Ltd and Sissa Medialab srl.

    NJ Davis, RP Ward, K Rusek, NM Clarke, G Tungate, JAR Griffith, SJ Hall, O Karban, I Martel-Bravo, JM Nelson, J Gómez-Camacho, T Davinson, DG Ireland, K Livingston, EW Macdonald, RD Page, PJ Sellin, CH Shepherd-Themistocleous, AC Shorter, PJ Woods (2004)Tensor analyzing powers for 7Li induced transfer breakup reactions, In: Physical Review C - Nuclear Physics69(6)pp. 064605-064601

    The T20 analyzing powers have been measured for the 120Sn(7Li, 8Be → 2α) 119In and 120Sn(7Li, 6Li* → α + d) 121Sn transfer breakup reactions, using a 70 MeV beam. The data exhibit excellent agreement with the results of coupled reaction channels calculations, providing an important test of these calculations when applied to the transfer breakup reaction mechanism.

    MC Veale, PJ Sellin, J Parkin, A Lohstroh, AW Davies, P Seller (2008)Ion Beam Induced Charge Studies of CdZnTe Grown by Modified Vertical Bridgman Method, In: IEEE TRANSACTIONS ON NUCLEAR SCIENCE55(6)pp. 3741-3745 IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
    V Dedic, J Zazvorka, M Rejhon, J Franc, R Grill, PJ Sellin (2014)Temporal and temperature evolution of electric field in CdTe:In radiation detectors, In: JOURNAL OF APPLIED PHYSICS116(5)ARTN 0pp. ?-? AMER INST PHYSICS
    SG Wang, RL Wang, PJ Sellin, Q Zhang (2004)DNA biosensors based on self-assembled carbon nanotubes, In: BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS325(4)pp. 1433-1437 ACADEMIC PRESS INC ELSEVIER SCIENCE
    A Lohstroh, PJ Sellin, S Gkoumas, H Al-Barakaty, P Veeramani, ME Ozsan, G Prekas, MC Veale, JM Parkin, AW Davies (2010)The effect of fast neutron irradiation on the performance of synthetic single crystal diamond particle detectors, In: DIAMOND AND RELATED MATERIALS19(7-9)pp. 841-845 ELSEVIER SCIENCE SA

    Diamond is known for its extreme hardness which may allow it to operate as a particle detector in high fluence environments even after absorption of large radiation doses. We present a study of the deterioration of the charge collection efficiency (CCE) due to neutrons produced by U-235 fission, with irradiation fluences up to 1 x 10(16) n cm(-2). The planar devices were fabricated by thermal evaporation of Au onto approx. 300 mu m thick high purity chemical vapour deposited diamond produced by Element Six Ltd., UK. The detector performance was investigated as a function of bias voltage at room temperature using Am-241 alpha-particles and minimum ionising particles (MIPs) of a Sr-90 source. At low fluences up to 2 x 10(13) n cm(-2), the detectors reach the initial saturated signal amplitude after irradiation. However, the signal is less stable and deteriorates due to polarisation. This effect can be reduced by initial priming with X-rays. No peak could be distinguished in the detector response in the unprimed state after 10(16) n cm(-2) with bias voltages up to 1000 V (equivalent to 32 kV cm(-1)). However, a peak at about 18% CCE could be recovered after priming. (C) 2010 Elsevier B.V. All rights reserved.

    PJ Sellin, J Vaitkus (2006)New materials for radiation hard semiconductor dectectors, In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT557(2)pp. 479-489 ELSEVIER SCIENCE BV
    MP Taggart, C Payne, PJ Sellin (2016)Neutron-gamma discrimination via PSD plastic scintillator and SiPMs, In: Journal of Physics: Conference Series763(1)012007 Institute of Physics

    The reduction in availability and inevitable increase in cost of traditional neutron detectors based on the 3He neutron capture reaction has resulted in a concerted effort to seek out new techniques and detection media to meet the needs of national nuclear security. Traditionally, the alternative has been provided through pulse shape discrimination (PSD) using liquid scintillators. However, these are not without their own inherent issues, primarily concerning user safety and ongoing maintenance. A potential system devised to separate neutron and gamma ray pulses utilising the PSD technique takes advantage of recent improvements in silicon photomultiplier (SiPM) technology and the development of plastic scintillators exhibiting the PSD phenomena. In this paper we present the current iteration of this ongoing work having achieved a Figure of Merit (FoM) of 1.39 at 1.5 MeVee.

    V Dedic, J Franc, PJ Sellin, R Grill, V Perumal (2012)Study on electric field in Au/CdZnTe/In detectors under high fluxes of X-ray and laser irradiation, In: JOURNAL OF INSTRUMENTATION7ARTN Ppp. ?-? IOP PUBLISHING LTD
    PJ Sellin, AW Davies, A Lohstroh, ME Ozsan, J Parkin (2005)Drift mobility and mobility-lifetime products in CdTe : Cl grown by the travelling heater method, In: IEEE TRANSACTIONS ON NUCLEAR SCIENCE52(6)pp. 3074-3078 IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
    AE Bolotnikov, GS Camarda, E Chen, S Cheng, Y Cui, R Gul, R Gallagher, V Dedic, G De Geronimo, LO Giraldo, J Fried, A Hossain, JM MacKenzie, P Sellin, S Taherion, E Vernon, G Yang, U El-hanany, RB James (2016)CdZnTe position-sensitive drift detectors with thicknesses up to 5 cm, In: APPLIED PHYSICS LETTERS108(9)ARTN 09350 AMER INST PHYSICS

    We investigated the feasibility of long-drift-time CdZnTe (CZT) gamma-ray detectors, fabricated from CZT material produced by Redlen Technologies. CZT crystals with cross-section areas of 5 5 mm2 and 6 6 mm2 and thicknesses of 20-, 30-, 40-, and 50-mm were configured as 3D position-sensitive drift detectors and were read out using a front-end ASIC. By correcting the electron charge losses caused by defects in the crystals, we demonstrated high performance for relatively thick detectors fabricated from unselected CZT material. VC 2016 AIP Publishing LLC.

    DD Duarte, SJ Bell, J Lipp, A Schneider, P Seller, MC Veale, MD Wilson, MA Baker, PJ Sellin, V Kachkanov, KJS Sawhney (2013)Edge effects in a small pixel CdTe for X-ray imaging, In: JOURNAL OF INSTRUMENTATION8ARTN Ppp. ?-? IOP PUBLISHING LTD

    Large area detectors capable of operating with high detection efficiency at energies above 30 keV are required in many contemporary X-ray imaging applications. The properties of high Z compound semiconductors, such as CdTe, make them ideally suitable to these applications. The STFC Rutherford Appleton Laboratory has developed a small pixel CdTe detector with 80×80 pixels on a 250 µm pitch. Historically, these detectors have included a 200 µm wide guard band around the pixelated anode to reduce the effect of defects in the crystal edge. The latest version of the detector ASIC is capable of four-side butting that allows the tiling of N×N flat panel arrays. To limit the dead space between modules to the width of one pixel, edgeless detector geometries have been developed where the active volume of the detector extends to the physical edge of the crystal. The spectroscopic performance of an edgeless CdTe detector bump bonded to the HEXITEC ASIC was tested with sealed radiation sources and compared with a monochromatic X-ray micro-beam mapping measurements made at the Diamond Light Source, U.K. The average energy resolution at 59.54 keV of bulk and edge pixels was 1.23 keV and 1.58 keV, respectively. 87% of the edge pixels present fully spectroscopic performance demonstrating that edgeless CdTe detectors are a promising technology for the production of large panel radiation detectors for X-ray imaging

    A Ciavatti, E Capria, A Fraleoni-Morgera, G Tromba, D Dreossi, PJ Sellin, P Cosseddu, A Bonfiglio, B Fraboni (2015)Toward Low-Voltage and Bendable X-Ray Direct Detectors Based on Organic Semiconducting Single Crystals, In: ADVANCED MATERIALS27(44)pp. 7213-+ WILEY-V C H VERLAG GMBH
    M Nakhostin, Z Podolyak, PJ Sellin (2013)Application of pulse-shape discrimination to coplanar CdZnTe detectors, In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT729pp. 541-545 ELSEVIER SCIENCE BV
    SJ Bell, Mark Baker, DD Duarte, A Schneider, P Seller, Paul Sellin, MC Veale, MD Wilson (2017)Comparison of the surfaces and interfaces formed for sputter and electroless deposited gold contacts on CdZnTe, In: Applied Surface Science427(A)pp. 1257-1270 Elsevier

    Cadmium zinc telluride (CdZnTe) is a leading sensor material for spectroscopic X/-ray imaging in the fields of homeland security, medical imaging, industrial analysis and astrophysics. The metal-semiconductor interface formed during contact deposition is of fundamental importance to the spectroscopic performance of the detector and is primarily determined by the deposition method. A multi-technique analysis of the metalsemiconductor interface formed by sputter and electroless deposition of gold onto (111) aligned CdZnTe is presented. Focused ion beam (FIB) cross section imaging, X-ray photoelectron spectroscopy (XPS) depth profiling and current-voltage (IV) analysis have been applied to determine the structural, chemical and electronic properties of the gold contacts. In a novel approach, principal component analysis has been employed on the XPS depth profiles to extract detailed chemical state information from different depths within the profile. It was found that electroless deposition forms a complicated, graded interface comprised of tellurium oxide, gold/gold telluride particulates, and cadmium chloride. This compared with a sharp transition from surface gold to bulk CdZnTe observed for the interface formed by sputter deposition. The electronic (IV) response for the detector with electroless deposited contacts was symmetric, but was asymmetric for the detector with sputtered gold contacts. This is due to the electroless deposition degrading the difference between the Cd- and Te-faces of the CdZnTe (111) crystal, whilst these differences are maintained for the sputter deposited gold contacts. This work represents an important step in the optimisation of the metal-semiconductor interface which currently is a limiting factor in the development of high resolution CdZnTe detectors.

    CA Mills, H Al-Otaibi, A Intaniwet, M Shkunov, S Pani, JL Keddie, PJ Sellin (2013)Enhanced x-ray detection sensitivity in semiconducting polymer diodes containing metallic nanoparticles, In: Journal of Physics D: Applied Physics46(27)275102pp. ?-? Institute of Physics

    Semiconducting polymer X-radiation detectors are a completely new family of low-cost radiation detectors with potential application as beam monitors or dosimeters. These detectors are easy to process, mechanically flexible, relatively inexpensive, and able to cover large areas. However, their x-ray photocurrents are typically low as, being composed of elements of low atomic number (Z), they attenuate x-rays weakly. Here, the addition of high-Z nanoparticles is used to increase the x-ray attenuation without sacrificing the attractive properties of the host polymer. Two types of nanoparticles (NPs) are compared: metallic tantalum and electrically insulating bismuth oxide. The detection sensitivity of 5 µm thick semiconducting poly([9,9-dioctylfluorenyl-2,7-diyl]-co-bithiophene) diodes containing tantalum NPs is four times greater than that for the analogous NP-free devices; it is approximately double that of diodes containing an equal volume of bismuth oxide NPs. The x-ray induced photocurrent output of the diodes increases with an increased concentration of NPs. However, contrary to the results of theoretical x-ray attenuation calculations, the experimental current output is higher for the lower-Z tantalum diodes than the bismuth oxide diodes, at the same concentration of NP loading. This result is likely due to the higher tantalum NP electrical conductivity, which increases charge transport through the semiconducting polymer, leading to increased diode conductivity.

    Michael Hubbard, Matthew Taggart, Paul Sellin (2018)Exploration of Fourier based algorithms and detector designs for pulse shape discrimination, In: Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment930pp. 64-73 Elsevier

    We investigate the performance of Fourier-based neutron/gamma Pulse Shape Discrimination (PSD) algorithms applied to plastic scintillators that are coupled to silicon photomultipliers (SiPM). The detector acquired data from a mixed fast neutron and gamma field which was emitted from an AmBe source. Pulses produced from the detector were fully digitised for off-line analysis with the algorithms. We describe the performance of two Fourier-based PSD algorithms, Fourier Gradient Analysis (FGA) and Fourier Area Analysis (FAA), and compare their performance to the Charge Comparison Method (CCM). To compare the algorithms’ PSD performance the figure of merit (FoM) was calculated at various energies for each of the algorithms. The CCM analysed the pulses in the time domain whereas the other two algorithms processed the pulses within the frequency domain. Moreover, the detector was tested with different acquisition record lengths, in order to determine any impact on algorithm performance. It was determined that the FAA algorithm provided the best overall performance achieving a FoM of 1.57(1) at 1 MeVee with a 1.6 µs record length. Furthermore, the detector was tested using different load resistors which allowed the decay time of the pulses to be optimised. The influence of SiPM pulse decay time on the performance of the PSD algorithms is also presented.

    SJ Bell, A Schneider, P Seller, MC Veale, MD Wilson, MA Baker, V Perumal, PJ Sellin, H Chen, P Marthandam (2013)A multi-technique characterization of electroless gold contacts on single crystal CdZnTe radiation detectors, In: Journal of Physics D: Applied Physics46(45)

    Cadmium zinc telluride (CdZnTe) is now established as a popular choice of sensor for the detection of γ-rays and hard x-rays, leading to its adoption in security, medical and scientific applications. There are still many technical challenges involving the deposition of high-quality, uniform metal contacts on CdZnTe. A detailed understanding of the interface between the bulk CdZnTe and the metal contacts is required for improvements to be made. To understand these complex interfaces, a range of complementary materials characterization techniques have been employed, including x-ray photoelectron spectroscopy depth profiling, focused ion beam cross section imaging and energy dispersive x-ray spectroscopy. In this paper a number of Redlen CdZnTe detectors with asymmetric anode/cathode contacts have been investigated. The structures of the contacts were imaged and their compositions identified. It was found that the two stage electroless indium/electroless gold deposition process on 'polished only' surfaces formed a complex heterojunction on the cathode, incorporating compounds of gold, gold-tellurium, tellurium oxide (of varying stoichiometry) and cadmium chloride up to depths of several 100 nm. Trace amounts of indium were found, in the form of an indium-gold compound, or possibly indium oxide. At the surface of the CdZnTe bulk, a thin Cd depleted layer was observed. The anode heterojunction, formed by a single stage electroless gold deposition, was thinner and exhibited a simpler structure of gold and tellurium oxide. The differing (asymmetric) nature of the anode/cathode contacts gave rise to asymmetric current-voltage (I-V) behaviour and spectroscopy. © 2013 IOP Publishing Ltd.

    A Lohstroh, PJ Sellin, S Gkoumas, J Parkin, P Veeramani, G Prekas, MC Veale, J Morse (2008)Ion beam induced charge (IBIC) irradiation damage study in synthetic single crystal diamond using 2.6 MeV protons, In: PHYSICA STATUS SOLIDI A-APPLICATIONS AND MATERIALS SCIENCE205(9)pp. 2211-2215 WILEY-V C H VERLAG GMBH

    We have studied the effects of irradiation induced damage on the detector response of a synthetic single crystal diamond radiation detector. Before introducing radiation damage, the spatial variation of the detector response was investigated using a highly focused 2.6 MeV proton beam. A very uniform response close to 100% charge collection efficiency (CCE) over the whole contact area was found at applied electric field strengths as low as 0.4 V μm–1. At lower biases, time dependent polarisation phenomena were observed and clearly reduced the average signal amplitude. Subsequently, the 2.6 MeV proton beam has been used to introduce radiation damage within selected areas. The ion beam induced charge imaging was repeated to probe the modified regions. Even at an applied electric field of 2.6 V μm–1, no signal above the analogue threshold of the system was observed in the areas which had received a dose larger then 5 × 1014 cm–2, whereas more than 90% CCE was reached in the area with 1012 protons cm–2. (© 2008 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim)

    DD Duarte, JD Lipp, A Schneider, P Seller, MC Veale, MD Wilson, MA Baker, PJ Sellin (2016)Simulation of active-edge pixelated CdTe radiation detectors, In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT806pp. 139-145 ELSEVIER SCIENCE BV

    The edge surfaces of single crystal CdTe play an important role in the electronic properties and performance of this material as an X-ray and γ-ray radiation detector. Edge effects have previously been reported to reduce the spectroscopic performance of the edge pixels in pixelated CdTe radiation detectors without guard bands. A novel Technology Computer Aided Design (TCAD) model based on experimental data has been developed to investigate these effects. The results presented in this paper show how localized low resistivity surfaces modify the internal electric field of CdTe creating potential wells. These result in a reduction of charge collection efficiency of the edge pixels, which compares well with experimental data.

    A Intaniwet, CA Mills, M Shkunov, PJ Sellin, JL Keddie (2012)Heavy metallic oxide nanoparticles for enhanced sensitivity in semiconducting polymer x-ray detectors, In: Nanotechnology23(23)235502pp. ?-? IOP Publishing

    Semiconducting polymers have previously been used as the transduction material in x-ray dosimeters, but these devices have a rather low detection sensitivity because of the low x-ray attenuation efficiency of the organic active layer. Here, we demonstrate a way to overcome this limitation through the introduction of high density nanoparticles having a high atomic number (Z) to increase the x-ray attenuation. Specifically, bismuth oxide (Bi O ) nanoparticles (Z=83 for Bi) are added to a poly(triarylamine) (PTAA) semiconducting polymer in the active layer of an x-ray detector. Scanning electron microscopy (SEM) reveals that the Bi O nanoparticles are reasonably distributed in the PTAA active layer. The reverse bias dc currentvoltage characteristics for PTAABi O diodes (with indium tin oxide (ITO) and Al contacts) have similar leakage currents to ITO/PTAA/Al diodes. Upon irradiation with 17.5keV x-ray beams, a PTAA device containing 60wt% Bi O nanoparticles demonstrates a sensitivity increase of approximately 2.5 times compared to the plain PTAA sensor. These results indicate that the addition of high-Z nanoparticles improves the performance of the dosimeters by increasing the x-ray stopping power of the active volume of the diode. Because the Bi O has a high density, it can be used very efficiently, achieving a high weight fraction with a low volume fraction of nanoparticles. The mechanical flexibility of the polymer is not sacrificed when the inorganic nanoparticles are incorporated. © 2012 IOP Publishing Ltd.

    Mohammed Alharbi, Peter H. Burgess, Matt Taggart, Paul J. Sellin (2020)Retrofitting an environmental monitor with a silicon photomultiplier sensor, In: Journal of Radiological Protection IOP Publishing

    We report on the retrofitting of a standard DP2 environmental radiation monitor replacing the photomultiplier tube with a silicon photomultiplier (SiPM). The use of a SiPM has several advantages for a hand-held radiation monitor, including convenient low voltage operation and physical robustness. The SiPM is used to replace the existing photomultiplier tube, and we report the detection efficiency and alpha/beta discrimination performance of the modified probe compared to an unmodified version.

    Jessie A. Posar, Jeremy Davis, Owen Brace, Paul Sellin, Matthew J. Griffith, Olivier Dhez, Dean Wilkinson, Michael L.F Lerch, Anatoly Rosenfield, Marco Petasecca (2020)Characterization of a plastic dosimeter based on organic semiconductorphotodiodes and scintillator, In: Physics & Imaging in Radiation Oncology14pp. 48-52 Elsevier

    Background and purpose: Measurement of dose delivery is essential to guarantee the safety of patients under-going medical radiation imaging or treatment procedures. This study aimed to evaluate the ability of organic semi conductors, coupled with a plastic scintillator, to measure photon dose in clinically relevant conditions, and establish its radiation hardness. Thereby, proving organic devices are capable of being a water-equivalent, mechanically flexible, real-time dosimeter. Materials and methods: The shelf-life of an organic photodiode was analyzed to 40 kGy by comparison of the charge-collection-efficiency of a 520 nm light emitting diode. A non-irradiated and pre-irradiated photodiode was coupled to a plastic scintillator and their response to 6 MV photons was investigated. The dose linearity,dose-per-pulse dependence and energy dependence was characterized. Finally, the percentage depth dose (PDD)between 0.5 and 20 cm was compared with ionization chamber measurements.Results:Sensitivity to 6 MV photons was (190 ± 0.28) pC/cGy and (170 ± 0.11) pC/cGy for the non-irra-diated and pre-irradiated photodiode biased at −2 V. The response was independent of the dose-per-pulsebetween 0.031 and 0.34 mGy/pulse. An energy dependence was found for low keV energies, explained by theenergy dependence of the scintillator which plateaued between 70 keV and 1.2 MeV. The PDD was within ± 3%of the ionization chamber. Conclusion: Coupling an organic photodiode with a plastic scintillator provided reliable measurement of a rangeof photon energies. Dose-per-pulse and energy independence advocate their use as a dosimeter, specifically image-guided treatment without beam-quality correction factors. Degradation effects of organic semi conducting materials deteriorate sensor response but can be stabilized.

    Christopher Taggart, Chris Allwork, Michael Collett, Michael Hubbard, Paul Sellin (2020)Assessing the Suitability of Three Proxy Sources for the Development of Detectors of Special Nuclear Materials, In: Journal of Radiological Protection Society for Radiological Protection

    Numerous techniques and equipment have been developed to provide a capability for the detection of special nuclear materials (SNM), but due to the necessary security measures surrounding these materials alternate, or proxy, neutron sources are often utilised in their stead. In this paper we report the neutron and gamma pulse shape discrimination (PSD) response of plastic scintillator to mixed neutron/gamma beams produced from two radionuclide neutron sources, and also from an SNM source of weapons-grade plutonium. We discuss the suitability of using radionuclide sources, with appropriate shielding configurations as proxy sources for SNM. A 3 n-discrimination level has been achieved for an SNM source at a low-level energy threshold of 220 keVee when a shielding conguration of 5 cm of lead was implemented. Varying amounts of lead and HDPE shielding were also investigated with the 3 limit being reached by 240 keVee. This work shows that an AmBe neutron source serves as an appropriate SNM proxy achieving a comparable value for gure of merit above 1 MeVee. For energies below 1 MeVee down to 100 keVee a closer approximation of the expected FoM for SNM can be attained when using 252Cf as a proxy source or by utilising an ____enhanced" AmBe source with the addition of a further low energy ray source.

    M Hodgson, Annika Lohstroh, Paul Sellin, D Thomas (2017)Characterisation of Silicon Carbide and Diamond Detectors for Neutron Applications, In: Measurement Science and Technology28(10)105501 IOP Publishing

    The presence of carbon atoms in silicon carbide and diamond makes the materials ideal candidates for direct fast neutron detectors. Furthermore the low atomic number, strong covalent bonds, high displacement energies, wide band gap and low intrinsic carrier concentrations make these semiconductor detectors potentially suitable for applications where rugged, high temperature, low gamma sensitivity detectors are required, such as Active Interrogation, Electronic Personal Neutron Dosimetry and Harsh Environment Detectors. A thorough direct performance comparison of the detection capabilities of semiinsulating silicon carbide (SiC-SI), single crystal diamond (D-SC), polycrystalline diamond (D-PC) and a self-biased epitaxial silicon carbide (SiC-EP) detector has been conducted and benchmarked against a commercial silicon PIN (Si-PIN) diode, in a wide range of alpha (Am-241), beta (Sr/Y-90), ionising photon (65keV to 1332keV) and neutron radiation fields (including 1.2MeV to 16.5MeV mono-energetic neutrons, as well as neutrons from AmBe and Cf-252 sources). All detectors were shown to be able to directly detect and distinguish both the different radiation types and energies by using a simple energy threshold discrimination method. The SiC devices demonstrated the best neutron energy discrimination ratio (Emax[n=5MeV] / Emax[n=1MeV] ~5), whereas a superior neutron/photon cross sensitivity ratio was observed in the D-PC detector (Emax[AmBe] / Emax[Co-60] ~16). Further work also demonstrated that the cross sensitivity ratios can be improved through use of a simple proton-recoil conversion layer. Stability issues were also observed in the D-SC, D-PC and SiC-SI detectors while under irradiation, that being a change of energy peak position and/or count rate with time (often referred to as polarisation effect). This phenomenon within the detectors was non-debilitating over the time period tested (>5h) and as such, stable operation was possible. Furthermore, the D-SC, self-biased SiC-EP and a semi-insulating SiC detector were shown to operate over the temperature range -60C to +100C.

    Matthew Lowdon, Peter G. Martin, Michael Hubbard, Matthew Taggart, Dean T. Connor, Yannick Verbelen, Paul Sellin, Thomas B. Scott (2019)Evaluation of Scintillator Detection Materials for Application within Airborne Environmental Radiation Monitoring, In: Sensors19(18)3828 MDPI

    In response to the Fukushima Daiichi Nuclear Power Plant accident, there has occurred the unabated growth in the number of airborne platforms developed to perform radiation mapping—each utilising various designs of a low-altitude uncrewed aerial vehicle. Alongside the associated advancements in the airborne system transporting the radiation detection payload, from the earliest radiological analyses performed using gas-filled Geiger-Muller tube detectors, modern radiation detection and mapping platforms are now based near-exclusively on solid-state scintillator detectors. With numerous varieties of such light-emitting crystalline materials now in existence, this combined desk and computational modelling study sought to evaluate the best-available detector material compatible with the requirements for low-altitude autonomous radiation detection, localisation and subsequent high spatial-resolution mapping of both naturally occurring and anthropogenically-derived radionuclides. The ideal geometry of such detector materials is also evaluated. While NaI and CsI (both elementally doped) are (and will likely remain) the mainstays of radiation detection, LaBr3 scintillation detectors were determined to possess not only a greater sensitivity to incident gamma-ray radiation, but also a far superior spectral (energy) resolution over existing and other potentially deployable detector materials. Combined with their current competitive cost, an array of three such composition cylindrical detectors were determined to provide the best means of detecting and discriminating the various incident gamma-rays.

    M Hodgson, Annika Lohstroh, Paul Sellin (2017)Alpha radiation induced space charge stability effects in semi-insulating silicon carbide semiconductors compared to diamond., In: Diamond and Related Materials78pp. 49-57 Elsevier

    Although the use of semi-insulating silicon carbide material for radiation detection purposes has been previously demonstrated, its use in practical applications has been inhibited by space charge stability issues caused by defect concentrations within the material, the so called polarisation effect, by which the count rate and resultant spectrum changes with irradiation time. This is a result of the charge carriers generated during irradiation filling deep level defects within the material, causing space charge buildup and de-activating that trap level until the trapped charge is re-emitted. Consequently, the time dependence of the polarisation effect has been determined by a combination of parameters that can be influenced during operation, namely the incident radiation intensity, ambient light, temperature and bias. The material properties have also been considered through the use of materials with different defect capture cross sections, concentrations and energy level. A thorough characterisation of the alpha irradiation induced polarisation phenomenon in semi-insulating silicon carbide has been conducted to demonstrate that stable operation detectors are in fact possible with this material. The effects were compared to single crystal diamond and polycrystalline diamond, which are known to exhibit similar polarisation issues. The polarisation rate as an effect of incident flux, bias and temperature was determined, with the depolarisation rate as a function of ambient light and bias also demonstrated. Consequently it has been shown that stable operation can be maintained for detectors made from semi-insulating SiC material of active thickness 350 μm at incident alpha radiation fluxes of < 0.7 alphas per second per mm2 with high operating biases (> ±400 V). Furthermore, polarisation can be suitably managed or reduced through the use of light illumination and elevated temperatures (373 K).

    S Bell, Mark Baker, D Duarte, A Schneider, P Seller, Paul Sellin, M Veale, M Wilson (2017)Performance comparison of small-pixel CdZnTe radiation detectors with gold contacts formed by sputter and electroless deposition, In: Journal of Instrumentation12P06015 IOP Publishing

    Recent improvements in the growth of wide-bandgap semiconductors, such as cadmium zinc telluride (CdZnTe or CZT), has enabled spectroscopic X/γ-ray imaging detectors to be developed. These detectors have applications covering homeland security, industrial analysis, space science and medical imaging. At the Rutherford Appleton Laboratory (RAL) a promising range of spectroscopic, position sensitive, small-pixel Cd(Zn)Te detectors have been developed. The challenge now is to improve the quality of metal contacts on CdZnTe in order to meet the demanding energy and spatial resolution requirements of these applications. The choice of metal deposition method and fabrication process are of fundamental importance. Presented is a comparison of two CdZnTe detectors with contacts formed by sputter and electroless deposition. The detectors were fabricated with a 74 × 74 array of 200 μm pixels on a 250 μm pitch and bump-bonded to the HEXITEC ASIC. The X/γ-ray emissions from an 241Am source were measured to form energy spectra for comparison. It was found that the detector with contacts formed by electroless deposition produced the best uniformity and energy resolution; the best pixel produced a FWHM of 560 eV at 59.54 keV and 50% of pixels produced a FWHM better than 1.7 keV . This compared with a FWHM of 1.5 keV for the best pixel and 50% of pixels better than 4.4 keV for the detector with sputtered contacts.

    A Ciavatti, PJ Sellin, L Basirico, A Fraleoni-Morgera, B Fraboni (2016)Charged-particle spectroscopy in organic semiconducting single crystals, In: APPLIED PHYSICS LETTERS108(15)ARTN 15330 AMER INST PHYSICS

    The use of organic materials as radiation detectors has grown, due to the easy processability in liquid phase at room temperature and the possibility to cover large areas by means of low cost deposition techniques. Direct charged-particle detectors based on solution-grown Organic Semiconducting Single Crystals (OSSCs) are shown to be capable to detect charged particles in pulse mode, with very good peak discrimination. The direct charged-particle detection in OSSCs has been assessed both in the planar and in the vertical axes, and a digital pulse processing algorithm has been used to perform pulse height spectroscopy and to study the charge collection efficiency as a function of the applied bias voltage. Taking advantage of the charge spectroscopy and the good peak discrimination of pulse height spectra, an Hecht-like behavior of OSSCs radiation detectors is demonstrated. It has been possible to estimate the mobility-lifetime value in organic materials, a fundamental parameter for the characterization of radiation detectors, whose results are equal to lscoplanar¼ (5 .5 6 0.6 ) 106 cm2 /V and lssandwich¼ (1 .9 6 0.2 ) 106 cm2 /V, values comparable to those of polycrystalline inorganic detectors. Moreover, alpha particles Time-of-Flight experiments have been carried out to estimate the drift mobility value. The results reported here indicate how charged-particle detectors based on OSSCs possess a great potential as low-cost, large area, solid-state direct detectors operating at room temperature. More interestingly, the good detection efficiency and peak discrimination observed for chargedparticle detection in organic materials (hydrogen-rich molecules) are encouraging for their further exploitation in the detection of thermal and high-energy neutrons. VC 2016 AIP Publishing LLC.

    J Franc, V Dedic, J Zazvorka, M Hakl, R Grill, PJ Sellin (2013)Flux-dependent electric field changes in semi-insulating CdZnTe, In: JOURNAL OF PHYSICS D-APPLIED PHYSICS46(23)ARTN 23530 IOP PUBLISHING LTD
    A Owens, A Barnes, RA Farley, M Germain, PJ Sellin (2011)GaN detector development for particle and X-ray detection, In: Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
    MD Wilson, SJ Bell, P Seller, MC Veale, RJ Cernik, CK Egan, S Jacques, C Christodoulou, D O'Flynn, R Speller, S Pani, PJ Sellin, J Scuffham (2013)Multiple module pixellated CdTe spectroscopic X-ray detector, In: IEEE Transactions on Nuclear Science60(2)pp. 1197-1200

    A pixellated CdTe detector system comprising 2x2 detector modules has been developed for high energy spectroscopic X-ray imaging applications and has an active area of 16 cm. The detector modules are made from the HEXITEC 80x80 ASIC and 1 mm thick CdTe with Al-Schottky contacts. The CdTe has 250 μm pitch pixels with an outer guard ring on the same pitch. The single HEXITEC 80x80 detectors have an average energy resolution (FWHM) of 800 eV at 59.9 keV. Limitations in the multiple module DAQ system mean that the energy resolution of the pixels in the 2x2 detector array is 2.0 keV at 59.9 keV. The spacing between the tiled detector modules is 150 μ m which results in an inactive area equivalent to 3 pixels, including the guard ring on the edge of the detectors. The modular detector configuration demonstrates the potential to create large area detector arrays in the future. © 1963-2012 IEEE.

    MC Veale, SJ Bell, LL Jones, P Seller, MD Wilson, C Allwork, D Kitou, PJ Sellin, P Veeramani, RC Cernik (2011)An ASIC for the study of charge sharing effects in small pixel cdznte X-ray detectors, In: IEEE Transactions on Nuclear Science58(5)pp. 2357-2362 IEEE

    An Application Specific Integrated Circuit (ASIC) has been developed at the Rutherford Appleton Laboratory (RAL) to study the small pixel effect in spectroscopic CdTe and CdZnTe detectors. The PIXIE ASIC consists of four arrays of 3 × 3 channels flip chip bonded directly to the detector pixels. The active circuitry of each channel is a charge sensitive preamplifier and an output buffer which is multiplexed directly off chip. Each of the four detector arrays has a different anode geometry. The HEXITEC series of small pixel detectors developed at RAL have demonstrated energy resolutions of ~1 keV per pixel for both CdTe and CdZnTe, however, charge sharing events account for between 30-40% of the total count rate and can lead to degradation of the spectroscopy if not corrected for. The PIXIE ASIC will be used to study the effect of anode geometry on charge sharing and other aspects of the small pixel effect.

    P Seller, S Bell, RJ Cernik, C Christodoulou, CK Egan, JA Gaskin, S Jacques, S Pani, BD Ramsey, C Reid, PJ Sellin, JW Scuffham, RD Speller, MD Wilson, MC Veale (2011)Pixellated Cd(Zn)Te high-energy X-ray instrument, In: Journal of Instrumentation6C12009

    We have developed a pixellated high energy X-ray detector instrument to be used in a variety of imaging applications. The instrument consists of either a Cadmium Zinc Telluride or Cadmium Telluride (Cd(Zn)Te) detector bump-bonded to a large area ASIC and packaged with a high performance data acquisition system. The 80 by 80 pixels each of 250 μm by 250 μm give better than 1 keV FWHM energy resolution at 59.5 keV and 1.5 keV FWHM at 141 keV, at the same time providing a high speed imaging performance. This system uses a relatively simple wire-bonded interconnection scheme but this is being upgraded to allow multiple modules to be used with very small dead space. The readout system and the novel interconnect technology is described and how the system is performing in several target applications

    IY Al-Qaradawi, PA Sellin, PG Coleman (2002)Tests of a diamond field-assisted positron moderator, In: Applied Surface Science194(1-4)pp. 29-31

    Diagnostic studies have been performed on a 70 μm thick diamond film with a view to its development as a possible field-assisted moderator (FAM) for slow positron emission. The film was coated on one side with a 200 nm gold electrode and on the other with a similar thickness of gold in the form of a fine mesh (10 μm lines, 40 μm spaces) in the central part of the diamond surface and a solid edge for electrical contact. A potential difference of up to 300 V could be held across the film with a leakage current of ∼ 10 nA. Although positron re-emission was observed from the diamond surface, the re-emitted fraction was observed to decrease when a bias of 300 V was applied across the film. This negative result is interpreted in terms of the drifting of thermalised positrons to the gold mesh lines, a conclusion supported by Doppler broadening measurements. The potential for the development of a diamond-film-based positron beam tagger is discussed. © 2002 Elsevier Science B.V. All rights reserved.

    A Intaniwet, CA Mills, M Shkunov, H Thiem, JL Keddie, PJ Sellin (2009)Characterization of thick film poly(triarylamine) semiconductor diodes for direct x-ray detection, In: JOURNAL OF APPLIED PHYSICS106(6)ARTN 0pp. ?-? AMER INST PHYSICS
    M Hodgson, A Lohstroh, P Sellin, D Thomas (2016)Neutron Detection Performance of Silicon Carbide and Diamond Detectors with Incomplete Charge Collection Properties, In: Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors, and Associated Equipment

    The benefits of neutron detection and spectroscopy with carbon based, wide band gap, semiconductor detectors have previously been discussed within the literature. However, at the time of writing there are still limitations with these detectors related to availability, cost, size and perceived quality. This study demonstrates that lower quality materials—indicated by lower charge collection efficiency (CCE), poor resolution and polarisation effect—available at wafer scale and lower cost, can fulfil requirements for fast neutron detection and spectroscopy for fluxes over several orders of magnitude, where only coarse energy discrimination is required. In this study, a single crystal diamond detector (D-SC, with 100% CCE), a polycrystalline diamond (D-PC, with ≈4% CCE) and semi-insulating silicon carbide (SiC-SI, with ≈35% CCE) have been compared for alpha and fast neutron performance. All detectors demonstrated alpha induced polarisation effects in the form of a change of both energy peak position and count rate with irradiation time. Despite these operational issues the ability to detect fast neutrons and distinguish neutron energies was observed. This performance was demonstrated over a wide dynamic range (500–40,000 neutrons/s), with neutron induced polarisation being demonstrated in D-PC and SiC-SI at high fluxes.

    P J Sellin, A Galbiati (2005)Performance of a Diamond X-ray Sensor Fabricated with Metal-less Graphitic Contacts, In: Applied Physics Letters87(9)

    We report the x-ray photocurrent response of a coplanar chemical vapor deposition diamond detector fabricated using a metal-less graphitic ohmic contact. Ion implantation of 70 keV boron ions to a dose of 2x10(16) cm(-2) was performed through a patterned photoresist to produce a coplanar graphitic contact structure. The device photocurrent showed a fast response to pulsed x-ray irradiation, and showed no evidence of photocurrent persistence that is observed in devices fabricated using metal Schottky contacts. The graphite-contact device also showed no extrinsic photoconductivity when illuminated with white light.

    A Burger, S Derenzo, B Moses, P Luke, D Archer, A Bolotnikov, A Boston, L Fabris, L Franks, S Friedrich, JS Iwanczyk, W Kernan, S Payne, P Rockett, G Royle, A Rozenfeld, P Sellin, G Sjoden, B Sturm (2009)Conference Comments by the Editors, In: IEEE TRANSACTIONS ON NUCLEAR SCIENCE56(3)pp. 724-724 IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
    A Alruhaili, PJ Sellin, A Lohstroh, P Veeramani, S Kazemi, MC Veale, KJS Sawhney, V Kachkanov (2014)Performance characteristics of CdTe drift ring detector, In: JOURNAL OF INSTRUMENTATION9ARTN Cpp. ?-? IOP PUBLISHING LTD
    Matthew P. Taggart, Mohammad Nakhostin, Paul J. Sellin (2020)Optimizing the Sensitivity of a GAGG:Ce-Based Thermal Neutron Detector, In: IEEE transactions on nuclear science67(4)pp. 603-608 IEEE

    The neutron sensitivity of the cerium-doped gadolinium aluminum gallium garnet (GAGG:Ce) has been determined for five different scintillator volumes. The good \gamma ray detection performance of GAGG:Ce potentially results in a background signal that hides the low-lying neutron-capture \gamma rays from de-excitation of 156 Gd and 158 Gd when the detector volume, and therefore the total \gamma ray absorption, is large. We have investigated the competition between the detection of the neutron signature and discrimination of the background \gamma rays. A significant improvement in the neutron response has been demonstrated with a reduction in the scintillator volume. The peak-to-background ratio of the key neutron signature increased with decreasing scintillator thickness to a maximum value of 14 ± 3 for 50 \mu \text{m} . The limit of this correlation was not determined since the thinnest scintillator available (50 \mu \text{m} ) is greater than the mean free path of a neutron in 157 Gd (15.54 ± 0.09 \mu \text{m} ).

    SUAD SAEED ALGHAMDI, S BENNETT, CAROL CREAN, Joydip Ghosh , Harry Gibbard, Robert Moss , Justin Reiss, Douglas Wolfe, PAUL JONATHAN SELLIN (2022)Polycrystalline Formamidinium Lead Bromide X-ray Detectors, In: Applied sciences12(4)2013 MDPI
    Meng Xu, Menghua Zhu, Dou Zhao, SX Chen, SHIQING LIU, QI ZHANG, Pei Yuan, Binbin Zhang, Paul Jonathan Sellin, Wanqi Jie, Yadong Xu (2023)Orientation and mobility control of 4HCB organic film for flexible X-ray detectors with high performance, In: Journal of materials science & technology135pp. 46-53 Elsevier Ltd

    •The space-confined melt process is used to produce highly orientated organic semiconducting crystalline films with a large area.•Confined molecular packing significantly improves the hole mobility.•The 4HCB based X-ray detectors can achieve a high sensitivity with low dark current, result in outstanding direct imaging capabilities.•The device shows steady flexibility, with no degradation in detecting function after 100 cycles of bending. In comparison to inorganic counterparts, organic semiconducting (OSC) crystalline films are promising for building large-area and flexible ionizing radiation detectors for X-ray imaging or dosimetry due to their tissue equivalence, simple processing and large-scale production accessibility. Fabrication processes, however, hinder the ability to generate aligned and large-area films with high carrier mobility. In this work, the space-confined melt process is used to produce highly orientated 4HCB (4-hydroxycyanobenzene) OSC films with a large area of 15 × 18 mm2. The out-of-plane direction of the 4HCB film is , and the benzene rings are found to be extensively overlapped inside the in-plane direction, according to the XRD patterns. The film exhibits a high resistivity up to 1012 Ω cm, and high hole mobility of 10.62 cm2 V−1 s−1. Furthermore, the 4HCB (80 μm-thick film) based X-ray detectors can achieve a sensitivity of 93 μC Gyair−1 cm−2 and on/off ratio of 157. The device also shows steady flexibility, with no degradation in detecting function after 100 cycles of bending. Finally, the proposed 4HCB film detectors demonstrated a high-resolution X-ray imaging capability. The imaging of several materials with sharp edges (copper and polytetrafluoroethylene) has been obtained. This work has developed a fast but efficient approach for producing large-area, highly oriented OSC films for high-performance X-ray detectors.

    Isabel Helen Balbir Braddock, Maya Al Sid Cheikh, Joydip Ghosh, Roma Eve Mulholland, Joseph Gerard O'Neill, Vlad Stolojan, Carol Crean, Stephen Sweeney, Paul Jonathan Sellin (2022)Formamidinium Lead Halide Perovskite Nanocomposite Scintillators, In: Nanomaterials (Basel, Switzerland)12(13) Mdpi

    While there is great demand for effective, affordable radiation detectors in various applications, many commonly used scintillators have major drawbacks. Conventional inorganic scintillators have a fixed emission wavelength and require expensive, high-temperature synthesis; plastic scintillators, while fast, inexpensive, and robust, have low atomic numbers, limiting their X-ray stopping power. Formamidinium lead halide perovskite nanocrystals show promise as scintillators due to their high X-ray attenuation coefficient and bright luminescence. Here, we used a room-temperature, solution-growth method to produce mixed-halide FAPbX(3) (X = Cl, Br) nanocrystals with emission wavelengths that can be varied between 403 and 531 nm via adjustments to the halide ratio. The substitution of bromine for increasing amounts of chlorine resulted in violet emission with faster lifetimes, while larger proportions of bromine resulted in green emission with increased luminescence intensity. By loading FAPbBr(3) nanocrystals into a PVT-based plastic scintillator matrix, we produced 1 mm-thick nanocomposite scintillators, which have brighter luminescence than the PVT-based plastic scintillator alone. While nanocomposites such as these are often opaque due to optical scattering from aggregates of the nanoparticles, we used a surface modification technique to improve transmission through the composites. A composite of FAPbBr(3) nanocrystals encapsulated in inert PMMA produced even stronger luminescence, with intensity 3.8 x greater than a comparative FAPbBr(3)/plastic scintillator composite. However, the luminescence decay time of the FAPbBr(3)/PMMA composite was more than 3 x slower than that of the FAPbBr(3)/plastic scintillator composite. We also demonstrate the potential of these lead halide perovskite nanocomposite scintillators for low-cost X-ray imaging applications.

    M.P Taggart, J Henderson, J O’Neill, R Hawrami, E Ariesanti, A Burger, P.J Sellin (2021)Fast-neutron response of the novel scintillator caesium hafnium chloride, In: Nuclear instruments & methods in physics research. Section A, Accelerators, spectrometers, detectors and associated equipment1012165224 Elsevier B.V

    This paper reports on the performance of the inorganic scintillator caesium hafnium chloride (CHC) under exposure to the mixed radiation field of an AmBe neutron source and coupled to a silicon photomultiplier (SiPM). The neutron response is determined using the pulse shape discrimination charge comparison technique which can clearly identify both the (n,α) and (c) reactions in the material. Figures of merit for the pulse shape discrimination are presented and the quenching of the different channels is assessed through comparison to Monte Carlo simulations.

    Jessie A Posar, Jeremy Davis, Matthew J Large, Laura Basiricò, Andrea Ciavatti, Beatrice Fraboni, Olivier Dhez, Dean Wilkinson, Paul J Sellin, Matthew J Griffith, Michael L. F Lerch, Anatoly Rosenfeld, Marco Petasecca (2020)Characterization of an organic semiconductor diode for dosimetry in radiotherapy, In: Medical Physics (Lancaster)47(8)pp. 3658-3668 American Association of Physicists in Medicine

    Purpose The development of novel detectors for dosimetry in advanced radiotherapy modalities requires materials that have a water equivalent response to ionizing radiation such that characterization of radiation beams can be performed without the need for complex calibration procedures and correction factors. Organic semiconductors are potentially an ideal technology in fabricating devices for dosimetry due to tissue equivalence, mechanical flexibility, and relatively cheap manufacturing cost. The response of a commercial organic photodetector (OPD), coupled to a plastic scintillator, to ionizing radiation from a linear accelerator and orthovoltage x‐ray tube has been characterized to assess its potential as a dosimeter for radiotherapy. The radiation hardness of the OPD has also been investigated to demonstrate its longevity for such applications. Methods Radiation hardness measurements were achieved by observing the response of the OPD to the visible spectrum and 70 keV x rays after pre‐exposure to 40 kGy of ionizing radiation. The response of a preirradiated OPD to 6‐MV photons from a linear accelerator in reference conditions was compared to a nonirradiated OPD with respect to direct and indirect (RP400 plastic scintillator) detection mechanisms. Dose rate dependence of the OPD was measured by varying the surface‐to‐source distance between 90 and 300 cm. Energy dependence was characterized from 29.5 to 129 keV with an x‐ray tube. The percentage depth dose (PDD) curves were measured from 0.5 to 20 cm and compared to an ionization chamber. Results The OPD sensitivity to visible light showed substantial degradation of the broad 450 to 600 nm peak from the donor after irradiation to 40 kGy. After irradiation, the spectral shape has a dominant absorbance peak at 370 nm, as the acceptor better withstood radiation damage. Its response to x rays stabilized to 30% after 35 kGy, with a 0.5% difference between 770 Gy increments. The OPD exhibited reproducible detection of ionizing radiation when coupled with a scintillator. Indirect detection showed a linear response from 25 to 500 cGy and constant response to dose rates from 0.31 Gy/pulse to 3.4 × 10−4 Gy/pulse. However, without the scintillator, response increased by 100% at low dose rates. Energy independence between 100 keV and 1.2 MeV advocates their use as a dosimeter without beam correction factors. A dependence on the scintillator thickness used during a comparison of the PDD to the ionizing chamber was identified. A 1‐mm‐thick scintillator coupled with the OPD demonstrated the best agreement of ± 3%. Conclusions The response of OPDs to ionizing radiation has been characterized, showing promising use as a dosimeter when coupled with a plastic scintillator. The mechanisms of charge transport and trapping within organic materials varies for visible and ionizing radiation, due to differing properties for direct and indirect detection mechanisms and observing a substantial decrease in sensitivity to the visible spectrum after 40 kGy. This study proved that OPDs produce a stable response to 6‐MV photons, and with a deeper understanding of the charge transport mechanisms due to exposure to ionizing radiation, they are promising candidates as the first flexible, water equivalent, real‐time dosimeter.

    Yukta, Joydip Ghosh, Mohammad Adil Afroz, Suad Alghamdi, Paul Jonathan Sellin, Soumitra Satapathi (2022)Efficient and Highly Stable X‑ray Detection and Imaging using 2D (BA)2PbI4 Perovskite Single Crystals, In: ACS photonics9(11)pp. 3529-3539 American Chemical Society

    Organic–inorganic hybrid metal-halide perovskites have emerged as potential semiconductors for high-performance X-ray detection owing to their large radiation stopping power, high sensitivity, large mobility-lifetime (μτ) product, and facile fabrication strategies. In recent times, two-dimensional (2D) layered perovskite-based X-ray detectors have attracted significant attention owing to their superior ambient and thermal stability, reduced ion migration, and low defect density. Notably, in 2D perovskites, the larger organic amine spacer integrated alternately between inorganic lead halide octahedral layers can effectively restrict ion migration even for higher bias voltages in X-ray detection. In this work, we have fabricated centimeter-sized high-quality butyl amine organic spacer-incorporated n = 1 layered Ruddlesden–Popper (RP) phase (BA)2PbI4 2D perovskite single crystals using a conventional slow cooling method and demonstrated their X-ray detection and imaging applications. The (BA)2PbI4 single crystal detector exhibits an excellent X-ray performance with a sensitivity of 148 μCGy–1 cm–2 at 10 V mm–1 applied electric field, an ultralow detection limit less than 241 nGy s–1, a very low and stable dark current (20.52 pA), and a quick response time of ∼4 ms. Moreover, the fabricated devices have shown remarkably stable responses for continuous X-ray exposure over 60 min and ultrahigh storage stability of over 4 months, confirming the material robustness and stability. Finally, high-resolution X-ray imaging is demonstrated using these (BA)2PbI4 single crystal-based detectors. The exceptional operational stability and high performance of (BA)2PbI4 X-ray detectors make them promising candidates for low-dose X-ray detection and imaging applications.

    Naveen Kumar Tailor, Joydip Ghosh, Mohammad Adil Afroz, S BENNETT, MB Chatterjee, Paul Jonathan Sellin, Soumitra Satapathi (2022)Self-Powered X-ray Detection and Imaging using Cs2AgBiCl6 Lead-Free Double Perovskite Single Crystal, In: ACS applied electronic materials4(9)pp. 4530-4539 Amer Chemical Soc

    Despite the high performance of lead-halide perovskite-based X-ray detectors, the toxicity and instability of lead require the development of lead-free perovskites for X-ray detection applications. Here, we demonstrate lead-free and environmentally friendly, all-inorganic millimeter-sized Cs2AgBiCl6 double perovskite single crystal (SC) for X-ray detection and imaging. The high dark resistivity (3.1 x 1010 Omega cm), high carrier mobility-lifetime product (5.36 x 10-4 cm2 V-1), and lower trap density (1.18 x 109 cm-3) in these double perovskite SCs render them a potential material for X-ray detection. The fabricated vertical structured X-ray detector exhibits a sensitivity of 325.78 mu C Gy air-1 cm-2 and a limit of detection of 241 nGy s-1. Additionally, the Cs2AgBiCl6 SCs exhibit self-powered X-ray detection at zero bias with a sensitivity of 7 mu C Gy air-1 cm-2. Moreover, the fabricated perovskite X-ray detector exhibits a stable and robust performance under continuous X-ray irradiation and long-term ambient storage. Further, we demonstrated the imaging capability of the Cs2AgBiCl6 X-ray detector using a metal test object and obtained a distortion-free image. Our findings demonstrate that the Cs2AgBiCl6 single crystal-based X-ray detectors have great potential as practical X-ray detectors and imaging for medical radiography.

    B Zhang, Fangbao Wang, Xin Liu, B. Xiao, Meng Xu, Song-Tao Dong, Yadong Xu, Paul Sellin, W Jie (2021)Ion Migration Controlled Stability in α‑Particle Response of CsPbBr2.4Cl0.6 Detectors, In: Journal of Physical Chemistry C125(7)pp. 4235-4242 American Chemical Society

    Halide perovskites have been considered as nuclear radiation detection materials due to their high mobility, long carrier lifetime, and high absorption coefficient. However, it has been reported that the ion migration increases the dark current of halide perovskite detectors and hinders the stable response to high energy photons or particles. In this work, we report the utilization of the “voltage cycling” technique to obtain the stable α-particle spectra in a CsPbBr2.4Cl0.6 device. Also, by measuring the time-dependent stability and the effect of electric field strength, we can gain insight into the phenomona causing instability in these devices. Accordingly, the influence of ion migration on the charge transport properties and energy spectra in CsPbBr2.4Cl0.6 detectors was also revealed. Our investigation demonstrates the strong correlation between ion migration processes and stable energy spectra in halide perovskite materials.

    Ahmad I. Ayesh, SUAD SAEED ALGHAMDI, Belal Salah, S.H. Bennett, CAROL CREAN, PAUL JONATHAN SELLIN (2022)High sensitivity H2S gas sensors using lead halide perovskite nanoparticles, In: Results in physics35105333 Elsevier
    MC Veale, PJ Sellin, A Lohstroh, AW Davies, J Parkin, P Seller (2007)X-ray spectroscopy and charge transport properties of CdZnTe grown by the vertical Bridgman method, In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT576(1)pp. 90-94
    AW Davies, A Lohstroh, ME Ozsan, PJ Sellin (2005)Spatial uniformity of electron charge transport in high resistivity CdTe, In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT546(1-2)pp. 192-199
    J Parkin, PJ Sellin, AW Davies, A Lohstroh, ME Ozsan, P Seller (2007)alpha Particle response of undoped CdMnTe, In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT573(1-2)pp. 220-223
    A Simon, PJ Sellin, A Lohstroh (2004)IBIC imaging of intra-crystallite charge transport in CVD diamond at reduced temperature, In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION B-BEAM INTERACTIONS WITH MATERIALS AND ATOMS219pp. 1022-1026
    N Baier, A Brambilla, G Feuillet, A Lohstroh, S Renet, P Sellin (2007)EBIC and IBIC imaging on polyerystalline CdTe, In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT576(1)pp. 5-9
    PJ Sellin, D Hoxley, A Lohstroh, A Simon, W Cunningham, M Rahman, J Vaitkus, E Gaubas (2004)Ion beam induced charge imaging of epitaxial GaN detectors, In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT531(1-2)pp. 82-86

    We have investigated the use of digital data acquisition techniques to analyze the performance of pulse shape discrimination from a liquid scintillation detector in mixed neutron/gamma radiation fields. Three digital pulse shape discrimination methods were explored, applied to pulses digitized from a liquid scintillator using a high-speed waveform digitizer. The various features of these digital discrimination techniques are discussed and quality of the resulting n/gamma pulse shape discrimination is compared. The digital approach is useful with regard to developing a compact neutron monitor that is capable of fast neutron spectroscopy in the presence of strong mixed n/gamma radiation fields.

    The ability of coherent x-ray scatter to provide the molecular structure of breast tissues could add a new dimension in x-ray breast imaging capable of tracking the molecular structural changes during disease progression and (if improving the sensitivity to low-contrast lesions without increasing the radiation dose. Work is under way to build a laboratory prototype dual-sensor breast-imaging scanning system, which combines the diagnostic information from both the transmitted primary and the forward scattered x-rays. This required the design and development of a coherent x-ray scatter detection system based on a high-resistivity multi-element 2D Si-pad array, a multi-channel low-noise pulse processing front-end electronics chip, the XA1.3, and a new DAQ system. Results on the characterization and optimization of the detector-readout electronics-DAQ system and its performance to measure diffraction signatures are presented.

    A Lohstroh, PJ Sellin, F Boroumand, J Morse (2007)High gain observed in X-ray induced currents in synthetic single crystal diamonds, In: PHYSICA STATUS SOLIDI A-APPLICATIONS AND MATERIALS SCIENCE204(9)pp. 3011-3016

    Diamond is considered as tissue equivalent, due to its low atomic number, which makes it a particular attractive material for medical radiation dosimetry applications. X-ray dosimeters made of natural single crystal diamonds are commercially available and routinely used, with typical gain values of about 0.5. The selection of suitable natural diamonds for this purpose is time and cost intensive. We report an X-ray induced current study in synthetic single crystal diamonds. Similar to natural diamond dosimeters, the devices had to be pre-irradiated before use to achieve a reproducible performance. We compare two chemical vapour deposited (CVD) samples grown by Element Six Ltd (UK). D1 was a high purity sample contacted in a sandwich structure with an asymmetric contact pair. Sample D2 was cut vertically and contained some nitrogen rich layers. It was contacted with two Ohmic contacts, which partly covered the high temperature/high pressure substrate material. Particle spectroscopy suggests better charge transport in D1 compared to D2, most likely caused by the lower purity. In contrast to this, large gain values up to 6 x 104 and a sensitivity of similar to 30 mC/Gy were measured at field strengths of 2 kV/cm in D2, and only 7 mu C/Gy in D1, despite their comparable volumes. We deduce that the gain observed in these devices is affected by the electrical properties of the metal-diamond contacts. The response time of the high gain device was in the order of minutes, which is longer than expected by a purely photoconductive process. Long persistent currents have been reported before in diamond under UV irradiation and modifications of gain and response time by surface treatment of UV detectors are known in the literature, highlighting the influence of the surface and contact interface on the device operation. Our results indicate that synthetic single crystal diamond provides a promising material for high sensitivity tissue-equivalent X-ray dosimeters. (C) 2007 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.

    PJ Sellin, AW Davies, S Gkoumas, A Lohstroh, ME Ozsan, J Parkin, V Perumal, G Prekas, M Veale (2008)Ion beam induced charge imaging of charge transport in CdTe and CdZnTe, In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION B-BEAM INTERACTIONS WITH MATERIALS AND ATOMS266(8)pp. 1300-1306
    PJ Sellin, A Lohstroh, AW Davies, A Galbiati, J Parkin, SG Wang, A Simon (2007)Charge transport in polycrystalline and single crystal synthetic diamond using ion beam induced charge imaging, In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION B-BEAM INTERACTIONS WITH MATERIALS AND ATOMS260(1)pp. 293-298
    D G Darambara, P J Sellin, G Maehlum (2004)A Novel Detection System Consisting of a Large-Area Sensor and a Multicell Si-Pad Array Operated in Spectroscopic Mode for X-Ray Breast Imaging, In: IEEE Transactions on Nuclear Science51(4)pp. 1641-1647

    The ability of coherent X-ray scatter to provide the molecular structure of breast tissues could add a new dimension in X-ray breast imaging capable of tracking the molecular structural changes during disease progression and of improving the sensitivity to low-contrast lesions without increasing the radiation dose. Work is under way to build a laboratory prototype dual-sensor breast-imaging scanning system, which combines the diagnostic information from both the transmitted primary and the forward scattered X-rays. This required the design and development of a coherent X-ray scatter detection system based on a high-resistivity multielement two-dimensional (2-D) Si-pad array, a multichannel low-noise pulse processing front-end electronics chip, the XA1.3, and a new DAQ system. X-rays in the energy range of 17-45 keV can be detected with a FWHM energy resolution of 1-3 keV. Results on the characterization and optimization of the detector-readout electronics-DAQ system and its performance to measure diffraction signatures of most commonly used breast-equivalent materials of interest are presented.

    F Schirru, A Lohstroh, KDGI Jayawardena, SJ Henley, PJ Sellin (2013)X-ray induced photocurrent characteristics of CVD diamond detectors with different carbon electrodes, In: JOURNAL OF INSTRUMENTATION8pp. ?-?
    MD Wilson, P Seller, C Hansson, R Cernik, J Marchal, Z-J Xin, V Perumal, MC Veale, P Sellin (2009)X-Ray Performance of Pixilated CdZnTe Detectors, In: 2008 IEEE NUCLEAR SCIENCE SYMPOSIUM AND MEDICAL IMAGING CONFERENCE (2008 NSS/MIC), VOLS 1-9pp. 5046-5052
    T Quinn, R Bates, M Bruzzi, W Cunningham, K Mathieson, M Moll, T Nelson, HE Nilsson, I Pintillie, L Reynolds, S Sciortino, P Sellin, H Strachan, BG Svensson, J Vaitkus, M Rahman (2003)Comparison of bulk and epitaxial 4H-SiC detectors for radiation hard particle tracking, In: IEEE Nuclear Science Symposium Conference Record2pp. 1028-1033

    Measurements and simulations have been carried out using bulk and epitaxial SiC detectors. Samples were irradiated to fluences of around 1014 hardrons/cm2. Material of thickness 40um gave a charge collection efficiency of 100% dropping to around 60% at 100μm thickness. Detailed MEDICI simulations incorporated the main defect levels in SiC, the vanadium center, Z-center and a mid-gap level as measured by deep level transient spectroscopy and other techniques. Calculated recombination currents and charge collection efficiencies at varying fluences were comparable to experimental data. The study suggests that SiC detectors will operate up to fluences around 10 16/cm2 as required by future particle physics experiments.

    CJ Pearson, JJV Dobon, PH Regan, PJ Sellin, E Morton, PJ Nolan, A Boston, M Descovich, J Thornhill, J Cresswell, I Lazarus, J Simpson (2002)Digital gamma-ray tracking algorithms in segmented germanium detectors, In: IEEE TRANSACTIONS ON NUCLEAR SCIENCE49(3)pp. 1209-1215
    SG Wang, PJ Sellin, Q Zhang, FX Lu, WZ Tang, A Lohstroh (2005)The fabrication and performance of CVD diamond-based X-ray detectors, In: ZY Zhong, H Saka, TH Kim, EA Holm, YF Han, XS Xie (eds.), PRICM 5: THE FIFTH PACIFIC RIM INTERNATIONAL CONFERENCE ON ADVANCED MATERIALS AND PROCESSING, PTS 1-5475-47pp. 3605-3609
    Y-D Xu, W-Q Jie, X-X Bai, T Wang, L Fu, G-Q Zha, P Sellin (2009)Non-destructive characterization and selection of X/γ-ray detector-grade CdZnTe crystals, In: Proceedings of SPIE - The International Society for Optical Engineering7385

    Infrared (IR) transmission spectra and IR microscopy images were measured to evaluate the sliced CdZnTe crystals grown under different starting charges using modified vertical Bridgman method. Upon comparing the corresponding electric properties and charge transport performance, IR absorption within the wave-number range from 500 to 2500 cm-1 was potentially attributed to the free carrier absorption caused by the ionized impurities. The size and density of Te particles were not sensitive to IR transmission spectra over the same wave-number range. However, the electric field was modified around isolated Te particles, in such a way that the impurities gettering in the Te inclusions. With respect to the high resistive CdZnTe crystals, IR transmission measurements demonstrated that the mean transmittance is higher than 60% in the wave-number region from 500 to 4000 cm-1. IR microscopy shown the typical diameters of Te particles present in the material were in the range of 6-9 μm, and the density of the particles was 1-4×105 cm-3. The obtained electron mobility lifetime product (μτ)e value was in the range of 1-3×10-3 cm2V-1 by using well-known alpha particle spectra at room temperature. The fabricated CdZnTe thin planar detector showed the typical energy resolution was approximately 5.7% for the 59.5 keV peak at room temperature, without any additional signal processing.

    PJ Sellin, MBH Breese, A Galbiati, M Maghrabi, PD Townsend (2002)Ion beam induced charge and cathodoluminescence imaging of response uniformity of CVD diamond radiation detectors, In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT487(1-2)pp. 65-70
    S Rath, PJ Sellin, MBH Breese, H Herman, LC Alves, AH Holland (2003)Microscopic evaluation of spatial variations in material and charge transport properties of CdZnTe radiation detectors, In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT512(1-2)pp. 427-432
    JJ Valiente-Dobon, CJ Pearson, PH Regan, PJ Sellin, W Gelletly, E Morton, A Boston, M Descovich, PJ Nolan, J Simpson, I Lazarus, D Warner (2003)Performance of a 6x6 segmented germanium detector for gamma-ray tracking, In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT505(1-2)pp. 174-177
    T Tsvetkova, S Takahashi, P Sellin, I Gomez-Morilla, O Angelov, D Dimova-Malinovska, J Zuk (2011)Optical Pattern Fabrication in Amorphous Silicon Carbide with High-Energy Focused Ion Beams, In: ACTA PHYSICA POLONICA A120(1)pp. 56-59
    H Samic, GC Sun, V Donchev, NX Nghia, M Gandouzi, M Zazoui, JC Bourgoin, H El-Abbassi, S Rath, PJ Sellin (2002)Characterization of thick epitaxial GaAs layers for X-ray detection, In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT487(1-2)pp. 107-112
    E Fretwurst, J Adey, A Al-Ajili, G Alfieri, PP Allport, M Artuso, S Assouak, BS Avset, L Barabashi, A Barcz, R Bates, SF Biagi, GM Bilei, D Bisello, A Blue, A Blumenau, V Boisvert, G Bolla, G Bondarenko, E Borchi, L Borrello, D Bortoletto, M Boscardin, L Bosisio, TJV Bowcock, TJ Brodbeck, J Broz, M Bruzzi, A Brzozowski, M Buda, P Buhmann, C Buttar, F Campabadal, D Campbell, A Candelori, G Casse, A Cavallini, S Charron, A Chilingarov, D Chren, V Cindro, P Collins, R Coluccia, D Contarato, J Coutinho, D Creanza, L Cunningham, GF Dalla Betta, I Dawson, W de Boer, M De Palma, R Demina, P Dervan, S Dittongo, Z Dolezal, A Dolgolenko, T Eberlein, V Eremin, C Fall, F Fasolo, T Ferbel, F Fizzotti, C Fleta, E Focardi, E Forton, C Garcia, JE Garcia-Navarro, E Gaubas, MH Genest, KA Gill, K Giolo, M Glaser, C Goessling, V Golovine, SG Sevilla, I Gorelov, J Goss, AG Bates, G Gregoire, P Gregori, E Grigoriev, AA Grillo, A Groza, J Guskov, L Haddad, J Harkonen, F Hauler, M Hoeferkamp, F Honniger, T Horazdovsky, R Horisberger, M Horn, A Houdayer, B Hourahine, G Hughes, I Ilyashenko, K Irmscher, A Ivanov, K Jarasiunas, KMH Johansen, BK Jones, R Jones, C Joram, L Jungermann, E Kalinina, P Kaminski, A Karpenko, A Karpov, V Kazlauskiene, V Kazukauskas, V Khivrich, V Khomenkov, J Kierstead, J Klaiber-Lodewigs, R Klingenberg, P Kodys, Z Kohout, S Korjenevski, M Koski, R Kozlowski, M Kozodaev, G Kramberger, O Krasel, A Kuznetsov, S Kwan, S Lagomarsino, K Lassila-Perini, V Lastovetsky, G Latino, I Lazanu, S Lazanu, A Lebedev, C Lebel, K Leinonen, C Leroy, Z Li, G Lindstrom, V Linhart, P Litovchenko, A Litovchenko, AL Giudice, M Lozano, Z Luczynski, P Luukka, A Macchiolo, LF Makarenko, I Mandic, C Manfredotti, N Manna, SM Garcia, S Marunko, K Mathieson, J Melone, D Menichelli, A Messineo, J Metcalfe, S Miglio, M Mikuz, J Miyamoto, M Moll, E Monakhov, F Moscatelli, D Naoumov, E Nossarzewska-Orlowska, J Nysten, P Olivero, V Oshea, T Palviainen, C Paolini, C Parkes, D Pesseri, U Pein, G Pellegrini, L Perera, M Petasecca, C Plemonte, GU Pignatel, N Pinho, I Pintilie, L Pintilie, L Polivtsev, P Polozov, A Popa, J Popule, S Pospisil, A Pozza, V Radicci, JM Rafi, R Rando, R Roeder, T Rohe, S Ronchin, C Rott, A Roy, A Ruzin, HFW Sadrozinski, S Sakalauskas, M Scaringella, L Schiavulli, S Schnetzer, B Schumm, S Sciortino, A Scorzoni, G Segneri, S Seidel, A Seiden, G Sellberg, P Sellin, D Sentenac, I Shipsey, P Sicho, T Sloan, M Solar, S Son, B Sopko, V Sopko, N Spencer, J Stahl, D Stolze, R Stone, J Storasta, N Strokan, M Sudzius, B Surma, A Suvorov, BG Svensson, P Tipton, M Tomasek, A Tsvetkov, E Tuominen, E Tuovinen, T Tuuva, M Tylchin, H Uebersee, J Uher, M Ullan, JV Vaitkus, J Velthuis, E Verbitskaya, V Vrba, G Wagner, I Wilhelm, S Worm, V Wright, R Wunstorf, Y Yiuri, P Zabierowski, A Zaluzhny, M Zavrtanik, M Zen, V Zhukov, N Zorzi (2005)Recent advancements in the development of radiation hard semiconductor detectors for S-LHC, In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT552(1-2)pp. 7-19
    M Bruzzi, J Adey, A Al-Ajili, P Alexandrov, G Alfieri, PP Allport, A Andreazza, M Artuso, S Assouak, BS Avset, L Barabash, E Baranova, A Barcz, A Basile, R Bates, N Belova, SF Biagi, GM Bilei, D Bisello, A Blue, B Blumenau, V Boisvert, G Bolla, G Bondarenko, E Borchi, L Borrello, D Bortoletto, M Boscardin, L Bosisio, TJV Bowcock, TJ Brodbeck, J Broz, A Brukhanov, A Brzozowski, M Buda, P Buhmann, C Buttar, F Campabadal, D Campbell, A Candelori, G Casse, A Cavallini, A Chilingarov, D Chren, V Cindro, M Citterio, P Collins, R Coluccia, D Contarato, J Coutinho, D Creanza, W Cunningham, V Cvetkov, GF Dalla Betta, G Davies, I Dawson, W de Boer, M De Palma, R Demina, P Dervan, A Dierlamm, S Dittongo, L Dobrzanski, Z Dolezal, A Dolgolenko, T Eberlein, V Eremin, C Fall, F Fasolo, T Ferbel, F Fizzotti, C Fleta, E Focardi, E Forton, S Franchenko, E Fretwurst, F Gamaz, C Garcia, JE Garcia-Navarro, E Gaubas, MH Genest, KA Gill, K Giolo, M Glaser, C Goessling, V Golovine, SG Sevilla, I Gorelov, J Goss, A Gouldwell, G Gregoire, P Gregori, E Grigoriev, C Grigson, A Grillo, A Groza, J Guskov, L Haddad, J Harkonen, R Harding, F Hauler, S Hayama, M Hoeferkamp, F Honniger, T Horazdovsky, R Horisberger, M Horn, A Houdayer, B Hourahine, A Hruban, G Hughes, I Ilyashenko, K Irmscher, A Ivanov, K Jarasiunas, T Jin, BK Jones, R Jones, C Joram, L Jungermann, E Kalinina, P Kaminski, A Karpenko, A Karpov, V Kazlauskiene, V Kazukauskas, V Khivrich, V Khomenkov, J Kierstead, J Klaiber-Lodewigs, M Kleverman, R Klingenberg, P Kodys, Z Kohout, S Korjenevski, A Kowalik, R Kozlowski, M Kozodaev, G Kramberger, O Krasel, A Kuznetsov, S Kwan, S Lagomarsino, T Lari, K Lassila-Perini, V Lastovetsky, G Latino, S Latushkin, S Lazanu, I Lazanu, C Lebel, K Leinonen, C Leroy, Z Li, G Lindstrom, L Lindstrom, V Linhart, A Litovchenko, P Litovchenko, V Litvinov, A Lo Giudice, M Lozano, Z Luczynski, P Luukka, A Macchiolo, A Mainwood, LF Makarenko, I Mandic, C Manfredotti, SM Garcia, S Marunko, K Mathieson, A Mozzanti, J Melone, D Menichelli, C Meroni, A Messineo, S Miglio, M Mikuz, J Miyamoto, M Moll, E Monakhov, F Moscatelli, L Murin, F Nava, D Naoumov, E Nossarzewska-Orlowska, S Nummela, J Nysten, P Olivero, V Oshea, T Palviainen, C Paolini, C Parkes, D Passeri, U Pein, G Pellegrini, L Perera, M Petasecca, B Piatkowski, C Piemonte, GU Pignatel, N Pinho, I Pintilie, L Pintilie, L Polivtsev, P Polozov, AI Popa, J Popule, S Pospisil, G Pucker, V Radicci, JM Rafi, F Ragusa, M Rahman, R Rando, R Roeder, T Rohe, S Ronchin, C Rott, P Roy, A Roy, A Ruzin, A Ryazanov, HFW Sadrozinski, S Sakalauskas, M Scaringella, L Schiavulli, S Schnetzer, B Schumm, S Sciortino, A Scorzoni, G Segneri, S Seidel, A Seiden, G Sellberg, P Sellin, D Sentenac, I Shipsey, P Sicho, T Sloan, M Solar, S Son, B Sopko, N Spencer, J Stahl, I Stavitski, D Stolze, R Stone, J Storasta, N Strokan, W Strupinski, M Sudzius, B Surma, J Suuronen, A Suvorov, BG Svensson, P Tipton, M Tomasek, C Troncon, A Tsvetkov, E Tuominen, E Tuovinen, T Tuuva, M Tylchin, H Uebersee, J Uher, M Ullan, JV Vaitkus, P Vanni, J Velthuis, G Verzellesi, E Verbitskaya, V Vrba, G Wagner, I Wilhelm, S Worm, V Wright, R Wunstorf, P Zablerowski, A Zaluzhny, M Zavrtanik, M Zen, V Zhukov, N Zorzi (2005)Radiation-hard semiconductor detectors for SuperLHC, In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT541(1-2)pp. 189-201
    P Sellin, H El-Abbassi, JC Bourgoin, GC Sun (2003)Laser-induced pulse shapes in partially depleted epitaxial GaAs radiation detectors, In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT509(1-3)pp. 65-69
    J Scuffham, M Wilson, S Pani, D Duarte, M Veale, S Bell, S Jacques, P Seller, P Sellin, R Cernik (2012)High resolution dual-tracer brain SPECT with a new high-performance CdTe detector, In: EUROPEAN JOURNAL OF NUCLEAR MEDICINE AND MOLECULAR IMAGING39pp. S230-S230
    JC Bourgoin, GC Sun, PJ Sellin, S Yin (2004)Charge collection in epitaxial GaAs p/i/n radiation detectors, In: Proceedings of SPIE - The International Society for Optical Engineering5198pp. 150-153

    We describe the mode of operation of a detector for direct photon-electron conversion at room temperature, made of epitaxially grown GaAs. Contrary to bulk grown materials, epitaxial layers are free of defects, i.e. exhibit long lifetimes and high carrier mobilities, and have uniform electronic properties. However, the depleted zone is of limited extension, consequence of the level of the residual doping impurities, which are not compensated by defects. These detectors are adapted to X-ray imaging, in particular for low energy medical applications such as mammography, because of the availability of large areas (up to 4 inches in diameter), standard technological processes for making pixellated detectors and cost. However, charges in the neutral region can be collected by diffusion and we shall present data allowing to illustrate and evaluate this effect. Finally photocurrent measurements obtained under medical conditions demonstrate that, for the detector used, only a small fraction of the photocurrent originates from diffusing charges. They also show how a 120 μm thick GaAs epitaxial detector competes with a 0.5 mm thick CdZnTe detector.

    MC Veale, SJ Bell, LL Jones, P Seller, MD Wilson, C Allwork, D Kitou, PJ Sellin, P Veeramani, RC Cernik (2010)Investigating the small pixel effect in CdZnTe Hard X-ray detectors the PIXIE ASIC, In: IEEE Nuclear Science Symposium Conference Record (NSS/MIC)pp. 3789-3792
    DA Boardman, PJ Sellin (2001)Design and characterisation of high electron mobility transistors for use in a monolithic GaAs X-ray imaging sensor, In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT466(1)pp. 226-231
    PJ Sellin (2003)Recent advances in compound semiconductor radiation detectors, In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT513(1-2)pp. 332-339
    P Sellin, ME Ozsan, D Hoxley, A Lohstroh, P Siffert, M Sowinska, A Simon (2004)The role of defects on CdTe detector performance, In: SD Metzler (eds.), 2003 IEEE NUCLEAR SCIENCE SYMPOSIUM, CONFERENCE RECORD, VOLS 1-5pp. 3306-3310
    T Tsvetkova, P Sellin, R Carius, O Angelov, D Dimova-Malinovska (2007)High-energy He+ ion beam induced modification in a-SiC : H, In: JOURNAL OF OPTOELECTRONICS AND ADVANCED MATERIALS9(2)pp. 375-378
    SD Jastaniah, PJ Sellin (2002)Digital pulse-shape algorithms for scintillation-based neutron detectors, In: IEEE TRANSACTIONS ON NUCLEAR SCIENCE49(4)pp. 1824-1828
    T Tsvetkova, P Sellin, R Carius, O Angelov, D Dimova-Malinovska, J Zuk (2009)Optical contrast formation in amorphous silicon carbide with high-energy focused ion beams, In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION B-BEAM INTERACTIONS WITH MATERIALS AND ATOMS267(8-9)pp. 1583-1587
    SG Wang, PJ Sellin, A Lohstroh, ME Özsan (2005)Pulse shape study of chemical vapor deposited diamond alpha particle detectors, In: Materials Research Society Symposium Proceedings828pp. 369-374

    We report a study of pulse shapes of a radiation detector with a sandwich structure fabricated from chemical vapor deposited (CVD) polycrystalline diamond. The pulse shapes were recorded at room temperature using 5.486 MeV alpha particles from 241Am source. Only "fast" component was observed in the electron predominated pulses, whereas both "fast" and "slow" components were obtained in the hole predominated pulses, suggesting that electron charge drift is prompt and no detrapping occurred. In contrast, hole charge drift is slower than expected and trapping-detrapping took place during hole travel process. © 2005 Materials Research Society.

    T Menezes, PJ Sellin, PM Jenneson (2004)Characterisation of a multiple-line fluorescence X-ray tube for security imaging applications, In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT525(1-2)pp. 342-345
    PJ Sellin, G Jaffar, SD Jastaniah (2004)Performance of digital algorithms for n/gamma pulse shape discrimination using a liquid scintillation detector, In: SD Metzler (eds.), 2003 IEEE NUCLEAR SCIENCE SYMPOSIUM, CONFERENCE RECORD, VOLS 1-5pp. 1057-1060
    A Simon, P Sellin, A Lohstroh, C Jeynes (2003)Ion beam indneed charge microscopy imaging of CVD diamond, In: AG Cullis, PA Midgley (eds.), MICROSCOPY OF SEMICONDUCTING MATERIALS 2003(180)pp. 449-452
    PJ Sellin, G Prekas, A Lohstroh, M Ozsan, V Perumal, M Veale, P Seller (2009)Real-time imaging of the electric field distribution in CdZnTe at low temperature, In: RB James (eds.), Materials Research Society Symposium Proceedings1164pp. 15-24

    Real time imaging of the electric field distribution in CZT at low temperature has been carried out using the Pockels electro-optical effect. CZT detectors have been observed to show degraded spectroscopic resolution at low temperature due to so-called ‘polarization’ phenomena. By mounting a CZT device in a custom optical cryostat, we have used Pockels imaging to observe the distortion of the electric field distribution in the temperature range 240K - 300K. At 240K the electric field has a severely non-uniform depth distribution, with a high field region occupying ∼10% of the depth of the device under the cathode electrode and a low field in the remainder of the device. Using an alpha particle source positioned inside the vacuum chamber we have performed simultaneous alpha particle transient current (TCT) measurements. At low temperatures the alpha particle current pulses become significantly shorter, consistent with the reduced electron drift time due to a non-uniform electric field. These data provide useful insights into the mechanisms which limit the spectroscopic performance of CZT devices at reduced temperature.

    Y Xu, W Jie, G Zha, J Gao, T Wang, L Fu, P Sellin (2009)A study on the low energy X/γ-ray spectral response of CdZnTe planar detectors, In: Guangxue Xuebao/Acta Optica Sinica29(11)pp. 3072-3077
    T Crane, A Gavin, J Burns, D Glass, P. J Sellin, C Shenton-Taylor (2017)Assessment of Quantum Dots for Nuclear Security and X-Ray Dosimetry, In: 2017 IEEE Nuclear Science Symposium and Medical Imaging Conference (NSS/MIC)pp. 1-2 IEEE

    We present measured light outputs from a series of oleic acid and alkyl functionalized CdSeS/ZnS quantum dots in toluene and water-based suspensions. The colloidal nanocrystal samples were studied under UV and X-ray excitation, and in the presence of radioactive isotopes. Low-concentration (1 mg/ml) samples as small as 1 ml exhibited a measurable response to radiation exposure.

    PJ Sellin, H El-Abbassi, S Rath, JC Bourgoin, GC Sun (2003)Performance of epitaxial GaAs radiation detectors grown by vapour-based chemical reaction, In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT512(1-2)pp. 433-439
    TO Tumer, S Yin, V Cajipe, H Flores, J Mainprize, G Mawdsley, JA Rowlands, MJ Yaffe, EE Gordon, WJ Hamilton, D Rhiger, SO Kasap, P Sellin, KS Shah (2003)High-resolution pixel detectors for second generation digital mammography, In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT497(1)pp. 21-29
    Q Jiang, AW Brinkman, BJ Cantwell, JT Mullins, F Dierre, A Basu, P Veeramani, P Sellin (2009)Growth of Thick Epitaxial CdTe Films by Close Space Sublimation, In: JOURNAL OF ELECTRONIC MATERIALS38(8)pp. 1548-1553
    PJ Sellin (2006)Thick film compound semiconductors for X-ray imaging applications, In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT563(1)pp. 1-8
    M Moll, J Adey, A Al-Ajili, G Alfieri, PP Allport, M Artuso, S Assouak, BS Avset, L Barabash, A Barcz, R Bates, SF Biagi, GM Bilei, D Bisello, A Blue, A Blumenau, V Boisvert, G Bolla, G Bondarenko, E Borchi, L Borrello, D Bortoletto, M Boscardin, L Bosisio, TJV Bowcock, TJ Brodbeck, J Broz, M Bruzzi, A Brzozowski, M Buda, P Buhmann, C Buttar, F Campabadal, D Campbell, A Candelori, G Casse, A Cavallini, S Charron, A Chilingarov, D Chren, V Cindro, P Collins, R Coluccia, D Contarato, J Coutinho, D Creanza, W Cunningham, GF Dalla Betta, I Dawson, W de Boer, M De Palma, R Demina, P Dervan, S Dittongo, Z Dolezal, A Dolgolenko, T Eberlein, V Eremin, C Fall, F Fasolo, F Fizzotti, C Fleta, E Focardi, E Forton, E Fretwurst, C Garcia, JE Garcia-Navarro, E Gaubas, MH Genest, KA Gill, K Giolo, M Glaser, C Goessling, V Golovine, SG Sevilla, I Gorelov, J Goss, AG Bates, G Gregoire, P Gregori, E Grigoriev, AA Grillo, A Groza, J Guskov, L Haddad, J Harkonen, F Hauler, M Hoeferkamp, F Honniger, T Horazdovsky, R Horisberger, M Horn, A Houdayer, B Hourahine, G Hughes, I Ilyashenko, K Irmscher, A Ivanov, K Jarasiunas, KMH Johansen, BK Jones, R Jones, C Joram, L Jungermann, E Kalinina, P Kaminski, A Karpenko, A Karpov, V Kazlauskiene, V Kazukauskas, V Khivrich, V Khomenkov, J Kierstead, J Klaiber-Lodewigs, R Klingenberga, P Kodys, Z Kohout, S Korjenevski, M Koski, R Kozlowski, M Kozodaev, G Kramberger, O Krasel, A Kuznetsov, S Kwan, S Lagomarsino, K Lassila-Perini, V Lastovetsky, G Latino, S Lazanu, I Lazanu, A Lebedev, C Lebel, K Leinonen, C Leroy, Z Li, G Lindstrom, V Linhart, A Litovchenko, P Litovchenko, A Lo Giudice, M Lozano, Z Luczynski, P Luukka, A Macchiolo, LF Makarenko, I Mandic, C Manfredotti, N Manna, S Marti i Garcia, S Marunko, K Mathieson, J Melone, D Menichelli, A Messineo, J Metcalfe, S Miglio, M Mikuz, J Miyamoto, E Monakhov, F Moscatelli, D Naoumov, E Nossarzewska-Orlowska, J Nysten, P Olivera, V OShea, T Palvialnen, C Paolini, C Parkes, D Passeri, U Pein, G Pellegrini, L Perera, K Petasecca, C Piemonte, GU Pignatel, N Pinho, I Pintilie, L Pintilie, L Polivtsev, P Polozov, A Popa, J Popule, S Pospisil, A Pozza, V Radicci, JM Rafi, R Rando, R Roeder, T Rohe, S Ronchin, C Rott, A Roy, A Ruzin, HFW Sadrozinski, S Sakalauskas, M Scaringella, L Schiavulli, S Schnetzer, B Schumm, S Sciortino, A Scorzoni, G Segneri, S Seidel, A Seiden, G Sellberg, P Sellin, D Sentenac, I Shipsey, P Sicho, T Sloan, M Solar, S Son, B Sopko, V Sopko, N Spencer, J Stahl, D Stolze, R Stone, J Storasta, N Strokan, M Sudzius, B Surma, A Suvorov, BG Svensson, P Tipton, M Tomasek, A Tsvetkov, E Tuominen, E Tuovinen, T Tuuva, M Tylchin, H Uebersee, J Uher, M Ullan, JV Vaitkus, J Velthuis, E Verbitskaya, V Vrba, G Wagner, I Wilhelm, S Worm, V Wright, R Wunstorf, Y Yiuri, P Zabierowski, A Zaluzhny, M Zavrtanik, M Zen, V Zhukov, N Zorzi (2005)Development of radiation tolerant semiconductor detectors for the Super-LHC, In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT546(1-2)pp. 99-107
    IB Hutchinson, AD Holland, P Sellin, N Nelms, Y Bai (2004)Measurements of a new CZT pixel array detector based on the Rockwell PICNIC readout array, In: Proceedings of SPIE - The International Society for Optical Engineering5198pp. 314-325

    We have fabricated a new experimental pixel array using 2mm-thick CdZnTe. The trial arrays have been bump-bonded to the Rockwell PICNIC readout IC which provides low noise read out of pixel signals. First measurements are presented from the detector characterisation, which in particular, demonstrate that a very high bond yield (>99%) was achieved. It is envisaged that these detectors will be suitable for future X-ray astronomy and planetary missions as well as ground based applications such as non-destructive testing, threat detection and baggage scanning.

    SG Wang, PJ Sellin, Q Zhang, A Lohstroh, ME Ozsan, JZ Tian (2005)The effects of plasma post-treatment on the photoresponsivity of CVD diamond UV photodetectors, In: DIAMOND AND RELATED MATERIALS14(3-7)pp. 541-545
    FH Ruddy, JG Seidel, P Sellin (2009)High-resolution alpha spectrometry with a thin-window silicon carbide semiconductor detector, In: IEEE Nuclear Science Symposium Conference Record (NSS/MIC)pp. 2201-2206

    The potential for high-resolution alpha-particle energy spectrometry in high-temperature, high-radiation environments using thin-window 4H-SiC radiation detectors has been demonstrated. 238Pu alpha-particle peaks separated by only 42.7 keV have been completely resolved using a SiC Schottky detector with a 400 Aÿ titanium Schottky contact (entrance window). The observed FWHM for the 238Pu 5499.2-keV alpha particle peak is 20.6 keV or 0.37%. Factors affecting the observed alpha-particle energy resolution in SiC detectors will be discussed.

    PJ Sellin, G Rossi, MJ Renzi, AP Knights, EF Eikenberry, MW Tate, SL Barna, RL Wixted, SM Gruner (2001)Performance of semi-insulating gallium arsenide X-ray pixel detectors with current-integrating readout, In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT460(1)pp. 207-212
    SG Wang, Q Zhang, DJ Yang, PJ Sellin, GF Zhong (2004)Multi-walled carbon nanotube-based gas sensors for NH3 detection, In: DIAMOND AND RELATED MATERIALS13(4-8)pp. 1327-1332
    W Ghoggali, RD Speller, GJ Royle, J Gabathuse, PJ Sellin, IH Lazarus, DE Appelbe (2004)Detector characteristics of a pixellated germanium compton camera for nuclear medicine, In: IEEE Nuclear Science Symposium Conference Record4pp. 2216-2220

    A pixellated germanium Compton camera is currently being developed for imaging 511 keV sources in nuclear medicine. It was built by ORTEC and consists of two planar Ge detectors (the scatter and the absorption detector) housed within the same cryostat. The scatter and absorption detectors have 152 and 25 4×4 mm2 pixels respectively. The readout electronics was developed at Daresbury Laboratory UK and consists of 15 GRT4 VME cards and a PowerPC. The system is controlled by a PC running MIDAS software. This paper reports the current status of camera development. The pixel energy resolution has been measured to give an average of ∼0.5% at 356 keV using a NIM module and ∼2% using a simple digital algorithm. In addition, a centroiding algorithm that takes into consideration the induced charge from the surrounding pixels, is being implemented to improve the intrinsic spatial resolution of the camera, which is restricted by the size of the pixel (4mm), to a target value of ∼1mm; so far a X-Y position sensitivity of 2mm has been achieved. The depth of interaction can be provided by analysis of the pulse rise time, theoretical predictions anticipate a value of the order of 0.5mm. Currently these parameters are determined offline using simple algorithms, but it is the intention to develop the algorithms and then implement them on the FPGAs available on the GRT4 cards for online analysis. © 2004 IEEE.

    GC Sun, M Lenoir, E Breelle, H Samic, JC Bourgoin, H El-Abbassi, PJ Sellin, JP Montagne (2003)X-ray detector with thick epitaxial GaAs grown by chemical reaction, In: IEEE TRANSACTIONS ON NUCLEAR SCIENCE50(4)pp. 1036-1038
    H El-Abbassi, S Rath, PJ Sellin (2001)Characterisation of vertical gradient freeze semi-insulating InP for use as a nuclear radiation detector, In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT466(1)pp. 47-51
    DG Darambara, PJ Sellin, G Maehlum (2004)A low-angle X-ray scatter breast-imaging system based on a novel multi-element Si-pad array operated in spectroscopic mode, In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT525(1-2)pp. 253-257
    SD Jastaniah, PJ Sellin (2002)Digital pulse shape algorithms for scintillation-based neutron detectors, In: JA Seibert (eds.), 2001 IEEE NUCLEAR SCIENCE SYMPOSIUM, CONFERENCE RECORDS, VOLS 1-4pp. 816-821
    A Galbiati, MBH Breese, AP Knights, B Sealy, PJ Sellin (2001)Characterisation of a coplanar CVD diamond radiation detector, In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT466(1)pp. 52-57
    CA Mills, A Intaniwet, M Shkunov, JL Keddie, PJ Sellin (2009)Flexible radiation dosimeters incorporating semiconducting polymer thick films, In: Proceedings of SPIE - The International Society for Optical Engineering7449

    Flexible radiation dosimeters have been produced incorporating thick films (>1 μm) of the semiconducting polymer poly([9,9-dioctylfluorenyl-2,7-diyl]-co-bithiophene). Diode structures produced on aluminium-metallised poly(imide) substrates, and with gold top contacts, have been examined with respect to their electrical properties. The results suggest that a Schottky conduction mechanism occurs in the reverse biased diode, with a barrier to charge injection at the aluminium electrode. Optical absorption/emission spectra reveal a band gap of 2.48 eV for the polymer. The diodes have been used for direct charge detection of 17 keV X-rays, generated by a molybdenum source. Using operating voltages of -10 and -50 V respectively, sensitivities of 54 and 158 nC/mGy/cm3 have been achieved. Increasing the operating voltage shows that the diodes are stable up to approximately -200 V without significant increase in the dark current of the device (

    MBH Breese, PJ Sellin, LC Alves, AP Knights, RS Sussmann, AJ Whitehead (2001)Imaging of charge transport properties in polycrystalline CVD diamond using IBIC and IBIL microscopy, In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION B-BEAM INTERACTIONS WITH MATERIALS AND ATOMS181pp. 219-224
    PJ Sellin, AW Davies, F Boroumand, A Lohstroh, ME Ozsan, J Parkin, M Veale (2007)IBIC characterization of charge transport in CdTe : Cl, In: SEMICONDUCTORS41(4)pp. 395-401
    J Franc, RB James, R Grill, V Dědič, E Belas, P Praus, G Prekas, PJ Sellin (2010)Influence of contacts on electric field in an Au/(CdZn)Te/Au detector: A simulation, In: IEEE Transactions on Nuclear Science57(4 PART)pp. 2349-2358 IEEE
    MD Wilson, P Barnes, RC Cernik, CCT Hansson, S Jacques, LL Jones, P Seller, PJ Sellin, T Sochi, MC Veale, P Veeramani, PJ Withers, CP Youd (2010)Comparison of the X-ray performance of small pixel CdTe and CZT detectors, In: IEEE Nuclear Science Symposium Conference Recordpp. 3942-3946

    The Rutherford Appleton Laboratory has built a small pixel detector for spectroscopic measurements of high energy X-rays using CdTe and CdZnTe. The detector has an array of 20×20 pixels on a 250μm pitch with each pixel bonded to a separate channel on an application specific integrated circuit (ASIC). Each channel in the ASIC contains a charge preamplifier, leakage current compensation circuit, shaping amplifier and peak hold circuit. In recent years there has been an increase in the availability of high quality CdTe and CdZnTe material and the contacting technology required for low leakage current small pixel devices. The energy resolution and stability of the X-ray performance of 1mm thick CdTe with Aluminum Schottky contact pixels and 2mm thick CdZnTe grown by travelling heater method (THM) are measured. The CdTe detectors had an energy resolution of 1 to 1.1keV at 75keV. The THM CdZnTe had an energy resolution of 1.3keV at 75keV. The stability of the performance was measured over a 12 hour exposure with the detectors biased to -500V and held at 25°C. The CdZnTe exhibited stable performance whereas the CdTe suffered from bias induced polarization, the onset of which was delayed by cooling the detectors to 12°C.

    SG Wang, PJ Sellin, A Lobstroh, ME Ozsan (2005)Pulse shape study of chemical vapor deposited diamond alpha particle detectors, In: S Seal, MI Baraton, C Parrish, N Murayama (eds.), Semiconductor Materials for Sensing828pp. 369-374