基于多反应通道的高产率中子源实验研究

Q4 Engineering 强激光与粒子束 Pub Date : 2021-09-15 DOI:10.11884/HPLPB202133.210330
Cui Bo, Zhang Zhi-meng, Dai Zenghai, Qiyong Wei, Deng Zhi-gang, H. Hua, He Shu-kai, Wang Wei-Wu, Teng Jian, Z. Bo, Liu Hong-jie, Chen Jiabin, Xia Yunqing, Wu Di, M. Wenjun, Hong Wei, Su Jingqin, Zhou Wei-min, Gu Yu-Qiu
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引用次数: 0

摘要

基于超短超强激光的短脉冲中子源是实现超快中子探测的理想中子源。对于新型激光中子源的许多应用,中子产额现在成为一个主要限制。本文提出,基于靶正常鞘层加速机制(TNSA)和束靶反应方案,采用复合组分靶LiD作为中子转换器是提高中子产额的有效途径。与具有两个典型反应通道p-Li和d-Li的传统LiF转换器相比,使用LiD转换器具有引入两个以上反应通道,即p-d和d-d的优点。因此,预计更多的反应通道将有利于提高中子产率。实验证明,使用LiD转换器,与LiF转换器相比,中子产额提高了2−3倍。结果,获得了具有前向束分布的最高产额为5.2×108sr−1的中子束。还确定了多反应通道的贡献,表明中子产额的提高主要来自p-D反应。
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Experimental study of high yield neutron source based on multi reaction channels
The short-pulse neutron source based on ultra-short and ultra-intense laser is an ideal neutron source for ultra-fast neutron detection. For many applications of the novel laser neutron source, the neutron yield now becomes a major limitation. It is proposed here that, based on the Target Normal Sheath Acceleration mechanism (TNSA) and the beam-target reaction scheme, the adoption of composite component target LiD as the neutron converter can be an effective path to enhance the neutron yield. Compared with the traditional LiF converter, which has two typical reaction channels p-Li and d-Li, the use of LiD converter has the advantages on introducing two more reactions channels, i.e., p-D and d-D. Therefore, more reaction channels are expected to be beneficial for increasing the neutron yield. It is experimentally demonstrated that by using LiD converter, an enhancement of 2−3 folds of neutron yield is achieved compared with the LiF converter. As a result, a neutron beam with the highest yield of 5.2×108 sr−1 with a forward beamed distribution is well obtained. The contribution of multi reaction channels is also identified, indicating the enhancement of neutron yield mainly comes from the p-D reaction.
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来源期刊
强激光与粒子束
强激光与粒子束 Engineering-Electrical and Electronic Engineering
CiteScore
0.90
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11289
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