S. Green scite author profile

S. Green

4Publications

33Citation Statements Received

36Citation Statements Given

How they've been cited

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Affiliations

University of Birmingham, Queen Elizabeth Hospital Birmingham, Queen Elizabeth Hospital

Publications

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An experimental demonstration of a new type of proton computed tomography using a novel silicon tracking detector

et al. 2016

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Successful tracking of protons through a thick target (phantom) has demonstrated that the tracker discussed in this paper can provide the precise directional information needed to perform proton radiography and tomography. When synchronized with a range telescope, this could enable the reconstruction of proton CT images of stopping power. Furthermore, by measuring the deflection of many protons through a phantom, it was demonstrated that it is possible to reconstruct a new kind of CT image (scattering power) based upon this tracking information alone.

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In‐phantom neutron fluence measurements in the orthogonal Birmingham boron neutron capture therapy beam

et al. 1998

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This paper presents the results of an experimental investigation into the performance of the Birmingham accelerator-based epithermal BNCT beam. In-phantom gold foil activation and boron trifluoride tube measurements have been used. The results have been compared with calculated response rates using Monte Carlo modeling of the entire neutron system from source to phantom and detector. The excellent agreement obtained gives us confidence in the validity of the simulations and our ability to predict accurately the neutronic performance of our BNCT facility.

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Development of a higher power cooling system for lithium targets

Phoenix

Green

Scott

et al. 2015

Applied Radiation and Isotopes

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The accelerator based Boron Neutron Capture Therapy beam at the University of Birmingham is based around a solid thick lithium target cooled by heavy water. Significant upgrades to Birmingham's Dynamitron accelerator are planned prior to commencing a clinical trial. These upgrades will result in an increase in maximum achievable beam current to at least 3 mA. Various upgrades to the target cooling system to cope with this increased power have been investigated. Tests of a phase change coolant known as "binary ice" have been carried out using an induction heater to provide a comparable power input to the Dynamitron beam. The experimental data shows no improvement over chilled water in the submerged jet system, with both systems exhibiting the same heat input to target temperature relation for a given flow rate. The relationship between the cooling circuit pumping rate and the target temperature in the submerged jet system has also been tested.

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Neural network unfolding of photon and neutron spectra using an NE-213 scintillation detector

Koohi-Fayegh

Green

Crout

et al. 1993

Nuclear Instruments and Methods in Physics Research Section A:

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S. Green

An experimental demonstration of a new type of proton computed tomography using a novel silicon tracking detector

In‐phantom neutron fluence measurements in the orthogonal Birmingham boron neutron capture therapy beam

Development of a higher power cooling system for lithium targets

Neural network unfolding of photon and neutron spectra using an NE-213 scintillation detector

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