Designing of the 14 MeV neutron moderator for BNCT

CHENG Dao-Wen; LU Jing-Bin; YANG Dong; LIU Yu-Min; WANG Hui-Dong; MA Ke-Yan

doi:10.1088/1674-1137/36/9/020

Chinese Physics C> 2012, Vol. 36> Issue(9) : 905-908 DOI: 10.1088/1674-1137/36/9/020

Designing of the 14 MeV neutron moderator for BNCT

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In boron neutron capture therapy (BNCT), the ratio of the fast neutron flux to the neutron flux in the tumor (RFNT) must be less than 3%. If a D-T neutron generator is used in BNCT, the 14 MeV neutron moderator must be optimized to reduce the RFNT. Based on the neutron moderation theory and the simulation results, tungsten, lead and diamond were used to moderate the 14 MeV neutrons. Satisfying RFNT of less than 3%, the maximum neutron flux in the tumor was achieved with a three-layer moderator comprised of a 3 cm thick tungsten layer, a 14 cm thick lead layer and a 21 cm thick diamond layer.

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CHENG Dao-Wen, LU Jing-Bin, YANG Dong, LIU Yu-Min, WANG Hui-Dong and MA Ke-Yan. Designing of the 14 MeV neutron moderator for BNCT[J]. Chinese Physics C, 2012, 36(9): 905-908. doi: 10.1088/1674-1137/36/9/020

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Received: 2011-12-23
Revised: 1900-01-01

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通讯作者: 陈斌, bchen63@163.com

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沈阳化工大学材料科学与工程学院沈阳 110142

Designing of the 14 MeV neutron moderator for BNCT

Corresponding author: CHENG Dao-Wen,

Received Date: 2011-12-23

Accepted Date: 1900-01-01

Available Online: 2012-09-05

Abstract: In boron neutron capture therapy (BNCT), the ratio of the fast neutron flux to the neutron flux in the tumor (RFNT) must be less than 3%. If a D-T neutron generator is used in BNCT, the 14 MeV neutron moderator must be optimized to reduce the RFNT. Based on the neutron moderation theory and the simulation results, tungsten, lead and diamond were used to moderate the 14 MeV neutrons. Satisfying RFNT of less than 3%, the maximum neutron flux in the tumor was achieved with a three-layer moderator comprised of a 3 cm thick tungsten layer, a 14 cm thick lead layer and a 21 cm thick diamond layer.

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Designing of the 14 MeV neutron moderator for BNCT

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