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Neutron beam optimization based on a ^7Li(p,n)^7Be reaction for treatment of deep-seated brain tumors by BNCT

Neutron beam optimization based on a ^7Li(p,n)^7Be reaction for treatment of deep-seated brain tumors by BNCT
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摘要 Neutron beam optimization for accelerator-based Boron Neutron Capture Therapy(BNCT) is investigated using a ^7Li(p,n)^7Be reaction. Design and optimization have been carried out for the target, cooling system,moderator, filter, reflector, and collimator to achieve a high flux of epithermal neutron and satisfy the IAEA criteria.Also, the performance of the designed beam in tissue is assessed by using a simulated Snyder head phantom. The results show that the optimization of the collimator and reflector is critical to finding the best neutron beam based on the ^7Li(p,n)^7Be reaction. Our designed beam has 2.49×109n/cm^2 s epithermal neutron flux and is suitable for BNCT of deep-seated brain tumors. Neutron beam optimization for accelerator-based Boron Neutron Capture Therapy(BNCT) is investigated using a ^7Li(p,n)^7Be reaction. Design and optimization have been carried out for the target, cooling system,moderator, filter, reflector, and collimator to achieve a high flux of epithermal neutron and satisfy the IAEA criteria.Also, the performance of the designed beam in tissue is assessed by using a simulated Snyder head phantom. The results show that the optimization of the collimator and reflector is critical to finding the best neutron beam based on the ^7Li(p,n)^7Be reaction. Our designed beam has 2.49×109n/cm^2 s epithermal neutron flux and is suitable for BNCT of deep-seated brain tumors.
作者 Zahra Ahmadi Ganjeh S.Farhad Masoudi
机构地区 Department of Physics
出处 《Chinese Physics C》 SCIE CAS CSCD 2014年第10期131-136,共6页 中国物理C(英文版)
关键词 BNCT target design ^7Li(p n)^7Be reaction beam shaping assembly DOSIMETRY BNCT, target design, ^7Li(p,n)^7Be reaction, beam shaping assembly, dosimetry
分类号 R739.41 [医药卫生—肿瘤]
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Chinese Physics C
2014年 第10期

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