长短脉冲联合驱动双层结构靶优化伽马射线的产生  被引量：1

作　　者：熊俊[1] 安红海[1] 王琛[1] 张振驰 矫金龙 雷安乐[1] 王瑞荣[1] 胡广月 王伟[1] 孙今人[1] Xiong Jun;An Hong-Hai;Wang Chen;Zhang Zhen-Chi;Jiao Jin-Long;Lei An-Le;Wang Rui-Rong;Hu Guang-Yue;Wang Wei;Sun Jin-Ren(Shanghai Institute of Laser Plasma,China Academy of Engineering Physics,Shanghai 201899,China;School of Nuclear Sicence and Technology,University of Science and Technology of China,Hefei 230026,China;Zhejiang Insitute of Modern Physics,Department of Physics,Zhejiang University,Hangzhou 310027,China)

机构地区：[1]中国工程物理研究院上海激光等离子体研究所,上海201899 [2]中国科学技术大学核科学技术学院,合肥230026 [3]浙江大学物理学系,浙江近代物理中心,杭州310027

出　　处：《物理学报》2022年第21期236-244,共9页Acta Physica Sinica

基　　金：科学挑战专题(批准号:TZ2018005)资助的课题。

摘　　要：在神光-Ⅱ升级及皮秒拍瓦激光装置上,开展了长短脉冲联合驱动双层结构靶优化伽马射线产生的实验研究.一束纳秒长脉冲激光预先烧蚀第一层碳氢薄膜靶,产生等离子体,经一定时间的自由膨胀后,形成较大尺度的低密度等离子体.第二束皮秒短脉冲激光与低密度等离子体相互作用,通过光场直接加速等非线性加速机制,将电子加速到相对论量级.相对论电子束经过传输后在第二层金转换靶上通过轫致辐射的方式产生伽马射线.该方案能够有效提升超强超短脉冲激光加速产生的相对论电子束流品质,获得能量更高、发散度更小的相对论电子束,进而有可能获得品质更高的伽马射线输出.In order to verify that the large-scale low-density plasma has a significant gain effect on the quality of the ultra-hot electron beam in ultra-strong ultra-short pulse laser interactions with matter,on the Shenguang-II upgraded laser facility,we carry out an experimental study on the optimization of relativistic electron beams that combine long and short pulse lasers to generate large-scale low-density pre-plasma.A nanosecond laser is used to ablate the thin hydrocarbon film.After a period of time,a large-scale low-density plasma is formed.The second picosecond short pulse laser then interacts with the formed low-density plasma,and accelerates the electrons to the relativity magnitude.Through the comparative analysis between different experimental conditions in the experiment,it is found that the existence of large-scale low-density plasma significantly increases the intensity of the relativistic electron beam along the laser propagation direction.In the comparative test of three shooting methods(long and short pulse combined driving double-layer target,short pulse driving double-layer target,short pulse driving single-layer target),we find that the energy bands above 1 MeV can be produced by the long pulse and the short pulse jointly driving double-layer target.The gamma-ray intensity is nearly twice that of the other two schemes.In addition,we also find in the experiment that when the time interval between nanosecond-picosecond pulses changes,the pre-plasma electron density and density scale length of the CH film irradiated by the nanosecond laser will be different.When the time interval is 0 ns,the expansion of the plasma is still insufficient,and the density distribution of the pre-plasma is steep.Part of the picosecond laser energy will be reflected at the critical density surface.Insufficient absorption of picosecond laser energy reduces the generation of relativistic electrons.When the time interval is 1 ns,the plasma state is more appropriate.The picosecond laser will form a self-focusing plasma channel

关 键 词：伽马射线 激光驱动离子加速 相对论电子 低密度等离子体 

分 类 号：O571.323[理学—粒子物理与原子核物理]