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Bibliographic Details
Main Authors: Donya, H., Umer, M.
Format: Preprint
Published: 2023
Subjects:
Online Access:https://arxiv.org/abs/2312.16745
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author Donya, H.
Umer, M.
author_facet Donya, H.
Umer, M.
contents Boron neutron capture therapy is about a century old, but still current and active. In this treatment, a high absorption cross-section of boron is used for thermal neutrons and the excited state is decomposed into alpha and lithium ions. These daughter particles have a high LET value and transfer their energy to the surrounding cells. In this work, the neutron generator DD-110 is the neutron source of the treatment mode. Since the neutron generator produces fast neutrons, these must be thermalized to the energy range of the epithermal neutrons. The beam shaping assembly is used for this purpose. The effectiveness of the system is analyzed using in-air and in-phantom parameters. The system provides an acceptable ratio of thermal to epithermal flux, gamma dose to epithermal flux and beam collimation. However, the epithermal flux and the ratio of fast neutron dose to epithermal flux need to be further improved. This can be achieved by improving the performance of the neutron generator to 2E13 n/sec. The entire system is modeled and simulated with the MCNPX code.
format Preprint
id arxiv_https___arxiv_org_abs_2312_16745
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Optimization of dd110 neutron generator output for boron neutron capture therapy
Donya, H.
Umer, M.
Accelerator Physics
Medical Physics
00A79
F.2.2
Boron neutron capture therapy is about a century old, but still current and active. In this treatment, a high absorption cross-section of boron is used for thermal neutrons and the excited state is decomposed into alpha and lithium ions. These daughter particles have a high LET value and transfer their energy to the surrounding cells. In this work, the neutron generator DD-110 is the neutron source of the treatment mode. Since the neutron generator produces fast neutrons, these must be thermalized to the energy range of the epithermal neutrons. The beam shaping assembly is used for this purpose. The effectiveness of the system is analyzed using in-air and in-phantom parameters. The system provides an acceptable ratio of thermal to epithermal flux, gamma dose to epithermal flux and beam collimation. However, the epithermal flux and the ratio of fast neutron dose to epithermal flux need to be further improved. This can be achieved by improving the performance of the neutron generator to 2E13 n/sec. The entire system is modeled and simulated with the MCNPX code.
title Optimization of dd110 neutron generator output for boron neutron capture therapy
topic Accelerator Physics
Medical Physics
00A79
F.2.2
url https://arxiv.org/abs/2312.16745