Demonstration of laser-produced neutron diagnostic by radiative capture gamma-rays.
Xiaopeng ZhangWenqing WeiChangbo FuXiaohui YuanHonghai AnYanqing DengYuan FangJian GaoXulei GeBing GuoChuangye HePeng HuNeng HuaWeiman JiangLiang LiMengting LiYifei LiYu-Tong LiGuoqian LiaoFeng LiuLongxiang LiuHongwei WangPengqian YangSu YangTao YangGuoqiang ZhangYue ZhangBaoqiang ZhuXiaofeng XiJianqiang ZhuZhengming ShengJie ZhangPublished in: The Review of scientific instruments (2018)
We report a new scenario of the time-of-flight technique in which fast neutrons and delayed gamma-ray signals were both recorded in a millisecond time window in harsh environments induced by high-intensity lasers. The delayed gamma signals, arriving far later than the original fast neutron and often being ignored previously, were identified to be the results of radiative captures of thermalized neutrons. The linear correlation between the gamma photon number and the fast neutron yield shows that these delayed gamma events can be employed for neutron diagnosis. This method can reduce the detecting efficiency dropping problem caused by prompt high-flux gamma radiation and provides a new way for neutron diagnosing in high-intensity laser-target interaction experiments.