Experimental study of pulsed X-ray imaging based on wire load

2020 IEEE International Conference on High Voltage Engineering and Application (ICHVE) Pub Date : 2020-09-06 DOI:10.1109/ICHVE49031.2020.9280010

Jian Zou, Xia Zheng, N. Zeng, Xingdong Jiang, Tianjue Zhang

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Abstract

In order to carry out X-pinch related experimental research, a new one-day experimental circuit has been established on the side of Light-II Pulse Power Generator (250 kA/50ns) at China Institute of Atomic Energy. On the basis of retaining the original pumping laser capacity of the device, X-pinch related experimental research can be carried out at the same time. Two groups of X-pinch were driven by Light- II, one group was placed in the anode and the other group was placed in the reflux disk. The time difference was used to conduct the backlight imaging experiment of plasma distribution in the process of X-pinch self-explosion, and the sequence images of different times of X-pinch development were obtained. In the picture, the halo layer, pinch, implosion and final collapse dissipation of the plasma at the X-pinch point can be observed. The experimental results are helpful to further understand the physical mechanism of X-pinch plasma development. At the same time, X-pinch biological phase contrast imaging experiment was carried out, and high-resolution biological imaging pictures were obtained.

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基于导线载荷的脉冲x射线成像实验研究

为了开展x点缩的相关实验研究，在中国原子能科学研究院光二代脉冲发电机(250 kA/50ns)侧建立了新的一日实验电路。在保留器件原有抽运激光能力的基础上，可同时进行X-pinch的相关实验研究。两组X-pinch由Light- II驱动，一组置于阳极，另一组置于回流盘。利用时差对X-pinch自爆过程中等离子体分布进行背光成像实验，得到X-pinch展开不同时间的序列图像。在图中可以观察到等离子体在X-pinch点的晕层、pinch、内爆和最终坍缩耗散。实验结果有助于进一步了解X-pinch等离子体形成的物理机制。同时进行X-pinch生物相衬成像实验，获得高分辨率生物成像图像。

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2020 IEEE International Conference on High Voltage Engineering and Application (ICHVE)

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