Radiation Studies for the Target Station of the MOMENT
he discovery of the neutrino mixing angle?θ13?opens new opportunities for the discovery of the leptonic CP violation for high intensity neutrino beams. MOMENT a future neutrino facility with a high-power proton beam of 15 MW from a continuous-wave linac is focused on that discovery. The high power of the proton beam causes extreme radiation conditions for the facility and especially for the target station where the pion capture system of five superconducting solenoids is located. In this paper initial studies are performed for the effects of the radiation on the solenoid structure and the area surrounding it. A concept cooling system is also proposed.
he discovery of the neutrino mixing angle13opens new opportunities for the discovery of the leptonic CP violation for high intensity neutrino beams. MOMENT a future neutrino facility with a high-power proton beam of 15 MW from a continuous-wave linac is focused on that discovery. The high power of the proton beam causes extreme radiation conditions for the facility and especially for the target station where the pion capture system of five superconducting solenoids is located. In this paper initial studies are performed for the effects of the radiation on the solenoid structure and the area surrounding it. A concept cooling system is also proposed.
Yang-Heng Zheng、Jian-Fei Tong、Huai-Min Liu、Nikolaos Vassilopoulos、Zhi-Long Hou、Qing-Nian Xu、Xiao-Rui yu、Miao He、Guang Zhao、Ye Yuan、Jing-Yu Tang、Jun Cao、Han-Tao Jing
加速器辐射防护粒子探测技术、辐射探测技术、核仪器仪表
MOMENT High intensity beam Neutrino Target station Radiation damage
Yang-Heng Zheng,Jian-Fei Tong,Huai-Min Liu,Nikolaos Vassilopoulos,Zhi-Long Hou,Qing-Nian Xu,Xiao-Rui yu,Miao He,Guang Zhao,Ye Yuan,Jing-Yu Tang,Jun Cao,Han-Tao Jing.Radiation Studies for the Target Station of the MOMENT[EB/OL].(2016-09-02)[2025-08-17].https://chinaxiv.org/abs/201609.00024.点此复制
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