In-phantom characterisation studies at the Birmingham Accelerator-Generated epIthermal Neutron Source (BAGINS) BNCT facility

Christopher Culbertson; Stuart Green; AJ Mason; David Picton; G Baugh; Richard Hugtenburg; Zaizhe Yin; Malcolm Scott; John Nelson

doi:10.1016/j.apradiso.2004.05.057

In-phantom characterisation studies at the Birmingham Accelerator-Generated epIthermal Neutron Source (BAGINS) BNCT facility

Christopher Culbertson, Stuart Green, AJ Mason, David Picton, G Baugh, Richard Hugtenburg, Zaizhe Yin, Malcolm Scott, John Nelson

Physics and Astronomy

Research output: Contribution to journal › Article

47 Citations (Scopus)

Abstract

A broad experimental campaign to validate the final epithermal neutron beam design for the BNCT facility constructed at the University of Birmingham concluded in November 2003. The final moderator and facility designs are overviewed briefly, followed by a summary of the dosimetric methods and presentation of a small subset of the results from this campaign. The dual ionisation chamber technique was used together with foil activation to quantify the fast neutron, photon, and thermal neutron beam dose components in a large rectangular phantom exposed to the beam with a 12 cm diameter beam delimiter in place. After application of a normalisation factor, dose measurements agree with in-phantom MCNP4C predictions within 10% for the photon dose, within 10% for thermal neutron dose, and within 25% for the proton recoil dose along the main beam axis.

Original language	English
Pages (from-to)	733-738
Number of pages	6
Journal	Applied Radiation and Isotopes
Volume	61
DOIs	https://doi.org/10.1016/j.apradiso.2004.05.057
Publication status	Published - 1 Nov 2004

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10.1016/j.apradiso.2004.05.057

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abstract = "A broad experimental campaign to validate the final epithermal neutron beam design for the BNCT facility constructed at the University of Birmingham concluded in November 2003. The final moderator and facility designs are overviewed briefly, followed by a summary of the dosimetric methods and presentation of a small subset of the results from this campaign. The dual ionisation chamber technique was used together with foil activation to quantify the fast neutron, photon, and thermal neutron beam dose components in a large rectangular phantom exposed to the beam with a 12 cm diameter beam delimiter in place. After application of a normalisation factor, dose measurements agree with in-phantom MCNP4C predictions within 10% for the photon dose, within 10% for thermal neutron dose, and within 25% for the proton recoil dose along the main beam axis.",

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AU - Culbertson, Christopher

AU - Green, Stuart

AU - Mason, AJ

AU - Picton, David

AU - Baugh, G

AU - Hugtenburg, Richard

AU - Yin, Zaizhe

AU - Scott, Malcolm

AU - Nelson, John

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In-phantom characterisation studies at the Birmingham Accelerator-Generated epIthermal Neutron Source (BAGINS) BNCT facility

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