Development of CVD diamond radiation detectors

Galbiati, Arnaldo

January 2003

Chemical vapour deposition (CVD) diamond is a very interesting material for the fabrication of radiation detectors, particularly for X-ray dosimetry. CVD diamond could potentially be used for large-area X-ray sensors, it is extremely radiation hard, can withstand high temperatures and highly corrosive environments, and is also "tissue-equivalent" in regard to X-ray absorption. In fact, there exist several applications where other standard semiconductor detectors do not fulfil those specific requirements. In this work we report on the fabrication and characterisation of CVD diamond radiation detectors and we describe how this material, even though of a polycrystalline nature, is readily of great interest for applications as a solid state X-ray dosimeter and alpha particle sensor. We have characterised the detectors using I-V measurements, photo current response to 30 KV(peak) X-ray pulses and their response to 241Am alpha particles. Ion beam induced current (rnIC) studies have also been used to investigate charge transport within single diamond crystallites. Ion implanted ohmic contacts have also been developed using boron to graphitise the diamond surface and produce high-quality non-metalised ohmic contacts.

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Neutron transport method for the response matrix determination of protein recoil detectors

Nikolic, Dragana

January 2005

No description available.

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Constraining the CKM angle γ with the LHCb detector

Phillips, Adam

January 2004

No description available.

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The characterisation and position resolution of a planar germanium strip detector

Dobson, Jennifer Lynn

January 2005

No description available.

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Testing and development of the CMS silicon tracker front end readout electronics

Leaver, James David George

January 2006

No description available.

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Development of imaging techniques for determining dose distributions around discrete radioactive particles found in the environment

Aydarous, Abdulkadir Sheikh

January 2003

No description available.

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GaN radiation detectors for particle physics and synchrotron applications

Grant, James Paul

January 2007

No description available.

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Computer modelling of diamond radiation detectors

Milazzo, Lorenzo

January 2004

No description available.

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Radiation sensor interface ASSP designed for safety critical applications

Nicholson, Richard

January 2006

The aim of this research is to advance the state-of-the-art in instrumentation for safety critical radiation monitoring through the fusion of a novel high reliability smart sensor system methodology with the design of a novel ASSP integrated circuit. The sensor element for the demonstrator system has been designed by the National Radiological Protection Board (NRPB) and the National Physics Laboratory (NPL), in collaboration with the project sponsor, BNFPlc.

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Understanding and calibrating the DS-ECAL for T2K'S ND280

Davies, Gavin

January 2011

The T2K (Tokai to Kamioka) experiment is an off-axis long-baseline neutrino oscillation experiment with a baseline of 295 km to the Super-Kamiokande far detector. The near detec- tor, ND280, measures the flux and energy spectra of electron and muon neutrinos 280m from the muon neutrino beam source. Electromagnetic calorimeters constructed from lead and plas- tic scintillator bars cover the largest active area in ND280. The most downstream calorimeter is the Downstream Electromagnetic Calorimeter (DS-ECal). This thesis details aspects of the construction and calibration of the DS-ECal. Construction of the DS-ECal and quality assurance of the scintillator bars was performed at Lancaster University. All scintillator bars that were selected for optical quality assurance tests were accepted for use in the construction of the DS-ECal. Each bar that was tested was shown to have a light yield within ~2δ of the mean light yield of 35.9 ± 4.9 photoelectrons per minimum- ionising particle, measured at 66 cm from the scintillator bar end with three wavelength-shifting fibres coupled to a photomultiplier readout. Cosmic ray data collected at CERN, upon the successful construction of the DS-ECal, was used to develop a simple track-selection algorithm that reconstructed the position of charge deposits in the DS-ECal. The resulting attenuation profiles of all bars have been demonstrated to be consistent with one another within uncertainties using a developed quadruple-exponential function that describes the attenuation of the detected light along the length of the DS-ECal scintillator bars both quantitatively and qualitatively. The attenuation length of light traveling along the length of scintillator bars within the calorimeter has been measured to be 341 ± 90 cm. This is consistent with expected values of the order of 350 cm for Yll WLS fibres. The Tokai (in - situ) and CERN cosmic ray data are also shown to be consistent with within approximately 1 % as calculated from the mean most probable value of a convoluted Landau-Gaussian distribution of charge hits at several positions along the bars for all channels in the detector combined. The DS-ECal is currently collecting neutrino data for inclusion in the T2K 20l0a physics run and is in good working order with only 11 dead channels from a total of 3400.

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