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183 results on '"Cao, Zhurong"'

1. Charge equilibration of Laser-accelerated Carbon Ions in Foam Target

Author

Ma, Bubo, Ren, Jieru, Liu, Lirong, Wei, Wenqing, Chen, Benzheng, Zhang, Shizheng, Xu, Hao, Hu, Zhongmin, Li, Fangfang, Wang, Xing, Yin, Shuai, Feng, Jianhua, Zhou, Xianming, Gao, Yifang, Li, Yuan, Shi, Xiaohua, Li, Jianxing, Ren, Xueguang, Xu, Zhongfeng, Deng, Zhigang, Qi, Wei, Wang, Shaoyi, Fan, Quanping, Cui, Bo, Wang, Weiwu, Yuan, Zongqiang, Teng, Jian, Wu, Yuchi, Cao, Zhurong, Zhao, Zongqing, Gu, Yuqiu, Cao, Leifeng, Zhu, Shaoping, Cheng, Rui, Lei, Yu, Wang, Zhao, Zhou, Zexian, Xiao, Guoqing, Zhao, Hongwei, Hoffmann, Dieter H. H., Zhou, Weimin, and Zhao, Yongtao

Subjects
Physics - Atomic Physics
Abstract

The charge equilibration of laser-accelerated carbon ion beams in 2 mg/cm3 foam target was investigated experimentally. The ions were generated through target normal sheath acceleration mechanism in laser-foil interaction scheme. This allows to get the equilibrium charge state in wide energy range near Bragg peak within a single shot. By using foam, the charge equilibration measurement in density regime between gas and solid state was firstly reached out experimentally. It was found that the theoretical predictions with tabulated cross section data for gas target greatly underestimated the charge states. The experimental data are in close agreement with both semi-empirical formula as well as rate equation predictions based on ion-solid interactions. The important role of target density effects that increase the ionization probability and decrease the electron capture probability through frequent multi-collisions in foam are demonstrated. The double electron processes are shown to have little influence on the average charge states. The findings are essential for high energy density physics research where the foams are widely used, and have impacts on a broad range of applications in medical, biological and material fields. The method also provides a new approach to investigate the interaction mechanism of swift heavy ions in matter by taking advantage of the laser-accelerated short-pulse wide-energy range ions.

Published
2023

2. Energy loss enhancement of very intense proton beams in dense matter due to the beam-density effect

Author

Chen, Benzheng, Ren, Jieru, Deng, Zhigang, Qi, Wei, Hu, Zhongmin, Ma, Bubo, Wang, Xing, Yin, Shuai, Feng, Jianhua, Liu, Wei, Xu, Zhongfeng, Hoffmann, Dieter H. H., Wang, Shaoyi, Fan, Quanping, Cui, Bo, He, Shukai, Cao, Zhurong, Zhao, Zongqing, Cao, Leifeng, Gu, Yuqiu, Zhu, Shaoping, Cheng, Rui, Zhou, Xianming, Xiao, Guoqing, Zhao, Hongwei, Zhang, Yihang, Zhang, Zhe, Li, Yutong, Zhou, Weimin, and Zhao, Yongtao

Subjects
Physics - Plasma Physics
Abstract

Thoroughly understanding the transport and energy loss of intense ion beams in dense matter is essential for high-energy-density physics and inertial confinement fusion. Here, we report a stopping power experiment with a high-intensity laser-driven proton beam in cold, dense matter. The measured energy loss is one order of magnitude higher than the expectation of individual particle stopping models. We attribute this finding to the proximity of beam ions to each other, which is usually insignificant for relatively-low-current beams from classical accelerators. The ionization of the cold target by the intense ion beam is important for the stopping power calculation and has been considered using proper ionization cross section data. Final theoretical values agree well with the experimental results. Additionally, we extend the stopping power calculation for intense ion beams to plasma scenario based on Ohm's law. Both the proximity- and the Ohmic effect can enhance the energy loss of intense beams in dense matter, which are also summarized as the beam-density effect. This finding is useful for the stopping power estimation of intense beams and significant to fast ignition fusion driven by intense ion beams.

Published
2023

3. Target density effects on charge tansfer of laser-accelerated carbon ions in dense plasma

Author

Ren, Jieru, Ma, Bubo, Liu, Lirong, Wei, Wenqing, Chen, Benzheng, Zhang, Shizheng, Xu, Hao, Hu, Zhongmin, Li, Fangfang, Wang, Xing, Yin, Shuai, Feng, Jianhua, Zhou, Xianming, Gao, Yifang, Li, Yuan, Shi, Xiaohua, Li, Jianxing, Ren, Xueguang, Xu, Zhongfeng, Deng, Zhigang, Qi, Wei, Wang, Shaoyi, Fan, Quanping, Cui, Bo, Wang, Weiwu, Yuan, Zongqiang, Teng, Jian, Wu, Yuchi, Cao, Zhurong, Zhao, Zongqing, Gu, Yuqiu, Cao, Leifeng, Zhu, Shaoping, Cheng, Rui, Lei, Yu, Wang, Zhao, Zhou, Zexian, Xiao, Guoqing, Zhao, Hongwei, Hoffmann, Dieter H. H., Zhou, Weimin, and Zhao, Yongtao

Subjects
Physics - Plasma Physics, Physics - Atomic Physics
Abstract

We report on charge state measurements of laser-accelerated carbon ions in the energy range of several MeV penetrating a dense partially ionized plasma. The plasma was generated by irradiation of a foam target with laser-induced hohlraum radiation in the soft X-ray regime. We used the tri-cellulose acetate (C$_{9}$H$_{16}$O$_{8}$) foam of 2 mg/cm$^{-3}$ density, and $1$-mm interaction length as target material. This kind of plasma is advantageous for high-precision measurements, due to good uniformity and long lifetime compared to the ion pulse length and the interaction duration. The plasma parameters were diagnosed to be T$_{e}$=17 eV and n$_{e}$=4 $\times$ 10$^{20}$ cm$^{-3}$. The average charge states passing through the plasma were observed to be higher than those predicted by the commonly-used semiempirical formula. Through solving the rate equations, we attribute the enhancement to the target density effects which will increase the ionization rates on one hand and reduce the electron capture rates on the other hand. In previsous measurement with partially ionized plasma from gas discharge and z-pinch to laser direct irradiation, no target density effects were ever demonstrated. For the first time, we were able to experimentally prove that target density effects start to play a significant role in plasma near the critical density of Nd-Glass laser radiation. The finding is important for heavy ion beam driven high energy density physics and fast ignitions., Comment: 7 pages, 4 figures, 35 conferences

Published
2022
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4. Two-dimensional time- and space-resolved diagnostic method for integrated implosion process

Author

Li, Shijian, Wang, Qiangqiang, Yao, Xuri, Cao, Zhurong, Liu, Jie, and Zhao, Qing

Subjects
Physics - Instrumentation and Detectors, Physics - Plasma Physics
Abstract

To precisely measure and evaluate X-ray generation and evolution in a hohlraum during an implosion process, we present a two-dimensional (2D) time- and space-resolved diagnostic method by combining a compressed ultrafast photography (CUP) system and a simplified version of space-resolving flux detector (SSRFD). Numerical experiment results showed that the reconstruction quality of the conventional CUP significantly improved owing to the addition of the external SSRFD, especially when a coded mask with a large pixel size was used in the CUP. Further, the performance of the CUP cooperation with the SSRFD was better than that of adding an external charge-coupled device or streak camera. Compared with existing ultrafast imaging techniques in laser fusion, the proposed method has a prominent advantage of measuring the 2D evolution of implosion by combining high temporal resolution of streak camera and high spatial resolution of SSRFD; moreover, it can provide guidance for designing diagnostic experiments in laser fusion research., Comment: 8 pages,5 figures

Published
2021
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5. Three-dimensional reconstruction of integrated implosion targets from simulated small-angle pinhole images

Author

Li, Shijian, Wang, Qiangqiang, Wei, Xian, Cao, Zhurong, and Zhao, Qing

Subjects
Physics - Plasma Physics, Physics - Applied Physics
Abstract

To indirectly evaluate the asymmetry of the radiation drive under limited measurement conditions in inertial confinement fusion research, we have proposed an integral method to approximate the three-dimensional self-radiation distribution of the compressed plasma core using only four pinhole images from a single laser entrance hole at a maximum projection angle of 10{\deg}. The simultaneous algebraic reconstruction technique (SART) that uses spatial constraints provided by the prior structural information and the central pinhole image is utilized in the simulation. The simulation results showed that the normalized mean square deviation between the original distribution and reconstruction results of the central radiation area of the simulated cavity was 0.4401, and the structural similarity of the cavity radiation distribution was 0.5566. Meanwhile, using more diagnostic holes could achieve better structural similarity and lower reconstruction error. In addition, the results indicated that our new proposed method could reconstruct the distribution of a compressed plasma core in a vacuum hohlraum with high accuracy., Comment: 12 pages,11 figures

Published
2020
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6. Anomalous stopping of laser-accelerated intense proton beam in dense ionized matter

Author

Ren, Jieru, Deng, Zhigang, Qi, Wei, Chen, Benzheng, Ma, Bubo, Wang, Xing, Yin, Shuai, Feng, Jianhua, Liu, Wei, Hoffmann, Dieter H. H., Wang, Shaoyi, Fan, Quanping, Cui, Bo, He, Shukai, Cao, Zhurong, Zhao, Zongqing, Cao, Leifeng, Gu, Yuqiu, Zhu, Shaoping, Cheng, Rui, Zhou, Xianming, Xiao, Guoqing, Zhao, Hongwei, Zhang, Yihang, Zhang, Zhe, Li, Yutong, Wu, Dong, Zhou, Weimin, and Zhao, Yongtao

Subjects
Physics - Plasma Physics
Abstract

Ultrahigh-intensity lasers (10$^{18}$-10$^{22}$W/cm$^{2}$) have opened up new perspectives in many fields of research and application [1-5]. By irradiating a thin foil, an ultrahigh accelerating field (10$^{12}$ V/m) can be formed and multi-MeV ions with unprecedentedly high intensity (10$^{10}$A/cm$^2$) in short time scale ($\sim$ps) are produced [6-14]. Such beams provide new options in radiography [15], high-yield neutron sources [16], high-energy-density-matter generation [17], and ion fast ignition [18,19]. An accurate understanding of the nonlinear behavior of beam transport in matter is crucial for all these applications. We report here the first experimental evidence of anomalous stopping of a laser-generated high-current proton beam in well-characterized dense ionized matter. The observed stopping power is one order of magnitude higher than single-particle slowing-down theory predictions. We attribute this phenomenon to collective effects where the intense beam drives an decelerating electric field approaching 1GV/m in the dense ionized matter. This finding will have considerable impact on the future path to inertial fusion energy., Comment: 8 pages, 4 figures

Published
2020
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7. First Integrated Implosion Experiment of Three-Axis Cylindrical Hohlraum at the SGIII Laser Facility

Author

Kuang, Longyu, Li, Hang, Jiang, Shaoen, Jing, Longfei, Zheng, Jianhua, Li, Liling, Lin, Zhiwei, Zhang, Lu, Li, Yulong, Liu, Xiangming, Peng, Xiaoshi, Tang, Qi, Zhan, Xiayu, Cao, Zhurong, Wang, Qiangqiang, Deng, Bo, Deng, Keli, Hou, Lifei, Du, Huabing, Jiang, Wei, Chen, Zhongjing, Yang, Dong, Wang, Feng, Yang, Jiamin, Gao, Lin, Zhang, Haijun, Zhang, Juan, Xie, Jun, Yuan, Guanghui, He, Zhibing, Zhou, Wei, Wang, Yuancheng, Huang, Xiaoxia, Chen, Xu, Deng, Caibo, Zhang, Baohan, Zheng, Jian, and Ding, Yongkun

Subjects
Physics - Plasma Physics
Abstract

The first integrated implosion experiment of three-axis cylindrical hohlraum (TACH) was accomplished at the SGIII laser facility. 24 laser beams of the SGIII laser facility were carefully chosen and quasi-symmetrically injected into the TACH, in which a highly symmetric radiation filed was generated with a peak radiation temperature of ~190eV. Driven by the radiation field, the neutron yield of a deuterium gas filled capsule reached ~1e9, and the corresponding yield over clean (YOC) was ~40% for a convergence ratio (Cr) of ~17. The X-ray self-emission image of imploded capsule cores was nearly round, and the backscatter fraction of laser beams was less than 1.25%. This experiment preliminarily demonstrated the major performance of TACH, such as the robustness of symmetry, and a laser plasma instability (LPI) behavior similar to that of the outer ring of traditional cylindrical hohlraum.

Published
2018

8. Charge equilibration of laser-accelerated carbon ions in a porous-structure foam target

Author

Ma, Bubo, primary, Ren, Jieru, additional, Liu, Lirong, additional, Wei, Wenqing, additional, Chen, Benzheng, additional, Zhang, Shizheng, additional, Xu, Hao, additional, Hu, Zhongmin, additional, Li, Fangfang, additional, Wang, Xing, additional, Li, Wenxuan, additional, Li, Qiuyan, additional, Yin, Shuai, additional, Feng, Jianhua, additional, Zhou, Xianming, additional, Gao, Yifang, additional, Li, Yuan, additional, Shi, Xiaohua, additional, Li, Jianxing, additional, Ren, Xueguang, additional, Xu, Zhongfeng, additional, Deng, Zhigang, additional, Qi, Wei, additional, Wang, Shaoyi, additional, Fan, Quanping, additional, Cui, Bo, additional, Wang, Weiwu, additional, Yuan, Zongqiang, additional, Teng, Jian, additional, Wu, Yuchi, additional, Cao, Zhurong, additional, Zhao, Zongqing, additional, Gu, Yuqiu, additional, Cao, Leifeng, additional, Zhu, Shaoping, additional, Cheng, Rui, additional, Lei, Yu, additional, Wang, Zhao, additional, Zhou, Zexian, additional, Xiao, Guoqing, additional, Zhao, Hongwei, additional, Hoffmann, Dieter H. H., additional, Zhou, Weimin, additional, and Zhao, Yongtao, additional

Published
2024
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12. Observation of a high degree of stopping for laser-accelerated intense proton beams in dense ionized matter

Author

Ren, Jieru, Deng, Zhigang, Qi, Wei, Chen, Benzheng, Ma, Bubo, Wang, Xing, Yin, Shuai, Feng, Jianhua, Liu, Wei, Xu, Zhongfeng, Hoffmann, Dieter H. H., Wang, Shaoyi, Fan, Quanping, Cui, Bo, He, Shukai, Cao, Zhurong, Zhao, Zongqing, Cao, Leifeng, Gu, Yuqiu, Zhu, Shaoping, Cheng, Rui, Zhou, Xianming, Xiao, Guoqing, Zhao, Hongwei, Zhang, Yihang, Zhang, Zhe, Li, Yutong, Wu, Dong, Zhou, Weimin, and Zhao, Yongtao

Published
2020
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13. Laser repointing scheme for octahedral spherical hohlraums on the SGIII laser facility

Author

Cao, Hui, primary, Xie, Xufei, additional, Chen, Yaohua, additional, Dong, Yunsong, additional, Wang, Liquan, additional, Cao, Zhurong, additional, Chen, Xu, additional, Wang, Qiangqiang, additional, Zhou, Wei, additional, Zhang, Wei, additional, Li, Zhichao, additional, Li, Sanwei, additional, Deng, Bo, additional, Hao, Liang, additional, Li, Shu, additional, Wu, Junfeng, additional, Ren, Guoli, additional, Hang, Xudeng, additional, Huo, Wenyi, additional, Huang, Xiaoxia, additional, Peng, Xiaoshi, additional, Yang, Dong, additional, Xu, Tao, additional, Hou, Lifei, additional, Che, Xingsen, additional, Guo, Liang, additional, Du, Huabing, additional, He, Xiaoan, additional, Li, Chaoguang, additional, Yang, Pin, additional, Gu, Qianqian, additional, Wang, Yuancheng, additional, Zheng, Kuixing, additional, Huang, Yunbao, additional, Feng, Bin, additional, Yuan, Guanghui, additional, Jiang, Baibin, additional, Zhang, Haijun, additional, Wang, Feng, additional, Yang, Jiamin, additional, Liu, Shenye, additional, Xie, Jun, additional, He, Zhibing, additional, Du, Kai, additional, Liu, Jie, additional, Zou, Shiyang, additional, Ding, Yongkun, additional, Zhu, Qihua, additional, and Lan, Ke, additional

Published
2023
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15. Target Density Effects on Charge Transfer of Laser-Accelerated Carbon Ions in Dense Plasma

Author

Ren, Jieru, primary, Ma, Bubo, additional, Liu, Lirong, additional, Wei, Wenqing, additional, Chen, Benzheng, additional, Zhang, Shizheng, additional, Xu, Hao, additional, Hu, Zhongmin, additional, Li, Fangfang, additional, Wang, Xing, additional, Yin, Shuai, additional, Feng, Jianhua, additional, Zhou, Xianming, additional, Gao, Yifang, additional, Li, Yuan, additional, Shi, Xiaohua, additional, Li, Jianxing, additional, Ren, Xueguang, additional, Xu, Zhongfeng, additional, Deng, Zhigang, additional, Qi, Wei, additional, Wang, Shaoyi, additional, Fan, Quanping, additional, Cui, Bo, additional, Wang, Weiwu, additional, Yuan, Zongqiang, additional, Teng, Jian, additional, Wu, Yuchi, additional, Cao, Zhurong, additional, Zhao, Zongqing, additional, Gu, Yuqiu, additional, Cao, Leifeng, additional, Zhu, Shaoping, additional, Cheng, Rui, additional, Lei, Yu, additional, Wang, Zhao, additional, Zhou, Zexian, additional, Xiao, Guoqing, additional, Zhao, Hongwei, additional, Hoffmann, Dieter H. H., additional, Zhou, Weimin, additional, and Zhao, Yongtao, additional

Published
2023
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17. Investigation for the movement of the laser entrance hole and bubble plasmas in laser-driven hohlraum

Author

Li, Qi, primary, Guo, Liang, additional, Li, Sanwei, additional, Li, Zhichao, additional, Deng, Bo, additional, Wang, Qiangqiang, additional, Deng, Keli, additional, Cao, Zhurong, additional, Du, Huabin, additional, Che, Xinshen, additional, Yang, Yimeng, additional, Hou, Lifei, additional, Gong, Tao, additional, Yang, Dong, additional, and Yang, Jiamin, additional

Published
2022
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18. Determination of laser entrance hole size for ignition-scale octahedral spherical hohlraums

Author

Chen, Yao-Hua, primary, Li, Zhichao, additional, Cao, Hui, additional, Pan, Kaiqiang, additional, Li, Sanwei, additional, Xie, Xufei, additional, Deng, Bo, additional, Wang, Qiangqiang, additional, Cao, Zhurong, additional, Hou, Lifei, additional, Che, Xingsen, additional, Yang, Pin, additional, Li, Yingjie, additional, He, Xiaoan, additional, Xu, Tao, additional, Liu, Yonggang, additional, Li, Yulong, additional, Liu, Xiangming, additional, Zhang, Haijun, additional, Zhang, Wei, additional, Jiang, Baibin, additional, Xie, Jun, additional, Zhou, Wei, additional, Huang, Xiaoxia, additional, Huo, Wen Yi, additional, Ren, Guoli, additional, Li, Kai, additional, Hang, Xudeng, additional, Li, Shu, additional, Zhai, Chuanlei, additional, Liu, Jie, additional, Zou, Shiyang, additional, Ding, Yongkun, additional, and Lan, Ke, additional

Published
2022
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20. Solutions of several theory and technique problems in high-space-resolving hotspot electron temperature diagnosis techniques in inertial confinement fusion

Author

Ren, Kuan, primary, Yao, Li, additional, Liu, Shenye, additional, Yi, Rongqing, additional, Mu, Baozhong, additional, Zhu, Jingtao, additional, Xu, Jie, additional, Li, Wenjie, additional, Shang, Wanli, additional, Dong, Jianjun, additional, Yang, Zhiwen, additional, Zhang, Xing, additional, Cao, Zhurong, additional, Li, Yulong, additional, Xu, Tao, additional, Guan, Zhanyang, additional, Wei, Huiyue, additional, Yang, Jiamin, additional, Ding, Yongkun, additional, Zhang, Baohan, additional, Jiang, Shaoen, additional, and Wang, Feng, additional

Published
2022
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21. Plasma Spectroscopy on Hydrogen-Carbon-Oxygen Foam Targets Driven by Laser-Generated Hohlraum Radiation

Author

Ma, Bubo, primary, Ren, Jieru, additional, Wang, Shaoyi, additional, Wang, Xing, additional, Yin, Shuai, additional, Feng, Jianhua, additional, Wei, Wenqing, additional, Xu, Xing, additional, Chen, Benzheng, additional, Zhang, Shisheng, additional, Xu, Zhongfeng, additional, Hu, Zhongmin, additional, Li, Fangfang, additional, Xu, Hao, additional, Li, Taotao, additional, Li, Yutian, additional, Wang, Yingying, additional, Liu, Lirong, additional, Liu, Wei, additional, Fan, Quanping, additional, Chen, Yong, additional, Deng, Zhigang, additional, Qi, Wei, additional, Cui, Bo, additional, Zhou, Weimin, additional, Zhao, Zongqing, additional, Cao, Zhurong, additional, Gu, Yuqiu, additional, Cao, Leifeng, additional, Cheng, Rui, additional, Xue, Quanxi, additional, Hoffmann, Dieter H. H., additional, and Zhao, Yongtao, additional

Published
2022
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23. First Inertial Confinement Fusion Implosion Experiment in Octahedral Spherical Hohlraum

Author

Lan, Ke, primary, Dong, Yunsong, additional, Wu, Junfeng, additional, Li, Zhichao, additional, Chen, Yaohua, additional, Cao, Hui, additional, Hao, Liang, additional, Li, Shu, additional, Ren, Guoli, additional, Jiang, Wei, additional, Yin, Chuansheng, additional, Sun, Chuankui, additional, Chen, Zhongjing, additional, Huang, Tianxuan, additional, Xie, Xufei, additional, Li, Sanwei, additional, Miao, Wenyong, additional, Hu, Xin, additional, Tang, Qi, additional, Song, Zifeng, additional, Chen, Jiabin, additional, Xiao, Yunqing, additional, Che, Xingsen, additional, Deng, Bo, additional, Wang, Qiangqiang, additional, Deng, Keli, additional, Cao, Zhurong, additional, Peng, Xiaoshi, additional, Liu, Xiangming, additional, He, Xiaoan, additional, Yan, Ji, additional, Pu, Yudong, additional, Tu, Shaoyong, additional, Yuan, Yongteng, additional, Yu, Bo, additional, Wang, Feng, additional, Yang, Jiamin, additional, Jiang, Shaoen, additional, Gao, Lin, additional, Xie, Jun, additional, Zhang, Wei, additional, Liu, Yiyang, additional, Zhang, Zhanwen, additional, Zhang, Haijun, additional, He, Zhibing, additional, Du, Kai, additional, Wang, Liquan, additional, Chen, Xu, additional, Zhou, Wei, additional, Huang, Xiaoxia, additional, Guo, Huaiwen, additional, Zheng, Kuixing, additional, Zhu, Qihua, additional, Zheng, Wanguo, additional, Huo, Wen Yi, additional, Hang, Xudeng, additional, Li, Kai, additional, Zhai, Chuanlei, additional, Xie, Hui, additional, Li, Lingxiao, additional, Liu, Jie, additional, Ding, Yongkun, additional, and Zhang, Weiyan, additional

Published
2021
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25. An ultrafast x-ray photoelectric detector using CsPbI2Br perovskite film.

Author

Li, Yukun, Chen, Tao, Che, Xingsen, Du, Huabing, and Cao, Zhurong

Subjects
PHOTODETECTORS, PHOTOELECTRICITY, CHARGE carrier mobility, INERTIAL confinement fusion, PEROVSKITE, X-rays, PHOTOVOLTAIC effect
Abstract

Metal halide perovskites have attracted worldwide attention in the field of x-ray detection due to their effective light absorption, excellent optoelectronic yield, high charge carrier mobility, and facile solution-processed preparation. Most of the current metal halide perovskite x-ray detectors rely on photoconductive or photovoltaic effects. In this work, we use CsPbI2Br perovskite films to demonstrate an ultrafast x-ray detector based on the photoelectric effect. The photoelectric effect allows the detector to exhibit a temporal resolution of 170 ps and an ultra-low dark current (10−5–10−3 pA), and the temporal response is the fastest among the reported perovskite x-ray detectors. The detector also exhibits a detectivity of 1.28 × 1010 Jones and a noise equivalent power of 6.95 × 10−11 W Hz−1/2. This ultrafast x-ray photoelectric detector has been utilized to diagnose x-ray flux in inertial confinement fusion experiments. [ABSTRACT FROM AUTHOR]

Published
2022
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28. Recent diagnostic developments at the 100 kJ-level laser facility in China

Author

Wang, Feng, primary, Jiang, Shaoen, additional, Ding, Yongkun, additional, Liu, Shenye, additional, Yang, Jiamin, additional, Li, Sanwei, additional, Huang, Tianxuan, additional, Cao, Zhurong, additional, Yang, Zhenghua, additional, Hu, Xin, additional, Miao, Wenyong, additional, Zhang, Jiyan, additional, Wang, Zhebin, additional, Yang, Guohong, additional, Yi, Rongqing, additional, Tang, Qi, additional, Kuang, Longyu, additional, Li, Zhichao, additional, Yang, Dong, additional, Li, Yulong, additional, Peng, Xiaoshi, additional, Ren, Kuan, additional, and Zhang, Baohan, additional

Published
2020
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31. Experimental progress of inertial confinement fusion based at the ShenGuang-III laser facility in China

Author

Jiang, Shaoen, primary, Wang, Feng, additional, Ding, Yongkun, additional, Liu, Shenye, additional, Yang, Jiamin, additional, Li, Sanwei, additional, Huang, Tianxuan, additional, Cao, Zhurong, additional, Yang, Zhenghua, additional, Hu, Xin, additional, Miao, Wenyong, additional, Zhang, Jiyan, additional, Wang, Zhebin, additional, Yang, Guohong, additional, Yi, Rongqing, additional, Tang, Qi, additional, Kuang, Longyu, additional, Li, Zhichao, additional, Yang, Dong, additional, and Zhang, Baohan, additional

Published
2018
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32. Development of a gated X-ray imager with multiple views and spectral selectivity for observing plasma evolution in hohlraums

Author

Cao Zhurong, Deng Bo, Keli Deng, Wang Qiangqiang, and Tao Chen

Subjects
Physics, business.industry, Astrophysics::High Energy Astrophysical Phenomena, Detector, Laser, law.invention, Optics, Planar, Hohlraum, law, Temporal resolution, Plasma diagnostics, business, Instrumentation, Inertial confinement fusion, Image resolution
Abstract

In the study of indirect drive Inertial Confinement Fusion (ICF), X-ray images through the laser entrance hole of the hohlraums can provide key information. In this paper, we present the advances on the development of a gated X-ray imager with multiple views and spectral selectivity. A diagnostic snout which contains four X-ray planar mirrors has been designed and coupled to a gated X-ray detector which includes an air box and has a spatial resolution better than 35 µm and a temporal resolution better than 70 ps. The two inner mirrors in the diagnostic snout operate at M band (1.6-3.5 keV), while the two outer mirrors operate at N band (0.5-1 keV). The four mirrors define four observation angles. Each mirror can reflect 4 X-ray images to the four microstrips of the gated X-ray detector with almost the same observation angle. The imager enables us to observe the spatial and temporal evolution of plasma in the hohlraums from four different observation angles based on both N band and M band images. The imager has been used in the ICF experiments conducted at Shenguang laser facility in China, and the obtained X-ray images of Au cylindrical hohlraum are presented and discussed in this paper.

Published
2019

33. Hydrodynamic instabilities of laser indirect-drive inertial-confinement-fusion implosion

Author

Dai Zhensheng, YU XiaoJin, YE Wen-Hua, Wang Li-Feng, Jiang Shao-En, XU XiaoWen, Li Yong-Sheng, Zhang Wei-Yan, Gu Jianfa, Kang Dong-Guo, Liu ChangLi, Cao ZhuRong, Zhu Shao-Ping, Xue Chuang, Fan Zheng-Feng, He Xiantu, Ding Yong-Kun, Zheng Wudi, Wang Min, Miu WenYong, Pei Wen-Bing, Wu Jun-Feng, Yuan Yong-Teng, and Liu Shenye

Subjects
Physics, business.industry, Implosion, Energy flux, Mechanics, Instability, law.invention, Ignition system, Optics, Physics::Plasma Physics, law, Hohlraum, Fusion ignition, Rayleigh–Taylor instability, business, Inertial confinement fusion
Abstract

Hydrodynamic instabilities (HI) occurring at interfaces of a capsule in the process of laser indirect-drive inertial-confinement-fusion (ICF) implosion, plays an essential role in the success of the fusion ignition. In order to deeply understand the generation and growth of the HI and their influence on the fusion ignition, we have successfully developed the LARED-S code which is a high-order twodimensional (local three-dimensional) radiation hydrodynamic code. The LARED-S code has been improved in our research of the HI in the past decades. It is shown that the results of LARED-S code agree well with the results of the linear and weakly nonlinear theories and the nonlinear shock tube experiments. Using the LARED-S code, we carry out a lot of numerical simulation research, obtaining a large amount of important result and physical understanding of the growth and evolution of the HI. The analytic expressions of the linear growth rate of Rayleigh-Taylor (RT) and Kelvin-Helmholtz (KH) instabilities considering the profiles of density, velocity, and magnetic field, and the their weakly nonlinear solutions in the limit of incompressible fluids, are derived. The relation of the RT instability (RTI) competing against the KH instability (KHI) is clearly shown, at different Froude numbers and widths of the density transition layer and the velocity shear layer. It is found that the jet-like spike in the ablative RTI (ARTI) in the presence of weak preheating can be ruptured by the nonlinear growth of the second harmonic. Moreover, jet-like spike pattern can be formed in the ARTI with strong preheating where a bubble acceleration process can be observed. The growth of high harmonics initiated by single-mode perturbation of the ablative KHI (AKHI) is effectively mitigated and the flow is stabilized in comparison with its classical counterpart. However, with a two-mode perturbation, the vortex pairing of the AKHI is reinforced, which would strength the mixing of materials. A serial of ARTI experiments have been performed in the Shenguang Ⅱ laser facility of China. The simulation results from the LARED-S code for the planar foil trajectory experiment indicates that the energy flux at the hohlraum wall is obviously less than that at the laser entrance hole (LEH). Furthermore, the non-Planckian spectra of X-ray source can affect the dynamics of the foil flight and the perturbation growth. The image of evident growth of the ARTI initiated by a small-amplitude perturbation and the "spike-bubble" pattern initiated by large-amplitude perturbation are observed. The data of the growth of the second and the third harmonics is also obtained by increasing the spatial resolution in the experiments. The simulation results are in general consistent with the experimental results. The reliability of the LARRED-S code has been tested and validated through the comparison with experiment results. Based on the physical understanding mentioned above, we have achieved the physical research of ICF fusion ignition target, including the effects of the perturbation seeded on the outer and inner surfaces of the shell, of the radiation asymmetry, of the hot-spot boundary instability, of the M-band from the hohlraum radiation, and of the low-mode areal density inhomogeneity, on the ICF implosion. Regarding the perturbation seeded on the ablator outer surface and on the deuterium-tritium (DT) ice inner surface and the radiation asymmetry, we have obtained the growth rule of the instabilities and improved the full understandings of the influence of the hot-spot interfacial growth on the fusion ignition and of the effect of the M-band of the X-ray spectra on the implosion stability. The simulation results show that the areal density inhomogeneity of the DT fuel severely affects the efficiency of the conversion of the implosion kinetic energy into the fuel internal energy and the implosion inertial confinement time. Our studies will play an important role not only in the research of ICF implosion ignition, but also in fundamental understanding of the HI which occur at the nature phenomena and the celestial bodies.

Published
2013

34. Experimental progress of inertial confinement fusion based at the ShenGuang-III laser facility in China

Author

Huang Tianxuan, Rongqing Yi, Xin Hu, Feng Wang, Zhenghua Yang, Miao Wenyong, Zhebin Wang, Sanwei Li, Zhichao Li, Jiyan Zhang, Longyu Kuang, Cao Zhurong, Yongkun Ding, Qi Tang, Jiamin Yang, Shaoen Jiang, Baohan Zhang, Yang Guohong, Dong Yang, and Shenye Liu

Subjects
Coupling, Physics, Nuclear and High Energy Physics, Nuclear engineering, Implosion, Condensed Matter Physics, Laser, 01 natural sciences, Electromagnetic radiation, 010305 fluids & plasmas, law.invention, Radiation flux, Data acquisition, law, Hohlraum, 0103 physical sciences, 010306 general physics, Inertial confinement fusion
Abstract

The ShenGuang-III (SG-III) laser facility was developed by the laser fusion research center (LFRC) for inertial confinement fusion (ICF) studies in China. Over 80 diagnostics have been installed at the SG-III laser facility, including optical diagnostics, x-ray imaging diagnostics, x-ray spectrum diagnostics, fusion product diagnostics and general diagnostics assistant systems, as well as central control and data acquisition systems. Various ICF experiments have also been performed at the SG-III laser facility. The first experiment explored the laser-target coupling process, including investigations of hohlraum radiation flux and laser energy coupling efficiency. The second experiment explored ablation and implosion physics, including shell asymmetry and implosion trajectory. The third experiment explored stagnation, hotspot dynamics and the nuclear phase of the implosion.

Published
2018

35. Experimental and simulation studies on gold bubble movement in gas-filled hohlraums

Author

Guo, Liang, primary, Li, Xin, additional, Xie, Xufei, additional, Deng, Bo, additional, Jiang, Xiaohua, additional, Li, Sanwei, additional, Li, Zhichao, additional, Deng, Keli, additional, Wang, Qiangqiang, additional, Cao, Zhurong, additional, Song, Peng, additional, Du, Huabin, additional, Yang, Yimeng, additional, Che, Xinsen, additional, Hou, Lifei, additional, Zha, Weiyi, additional, Xu, Tao, additional, Liu, Shenye, additional, Zheng, Chunyang, additional, Zheng, Wudi, additional, Ding, Yongkun, additional, Yang, Dong, additional, Wang, Feng, additional, Yang, Jiamin, additional, Jiang, Shaoen, additional, and Zhang, Baohan, additional

Published
2018
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38. Preliminary experiments on hohlraum-driven double-shell implosion at the ShenGuang-III laser facility

Author

Yan, Ji, primary, Zhang, Xing, additional, Li, Jiwei, additional, Dai, Zhensheng, additional, Chen, Bolun, additional, Jing, Longfei, additional, Chen, Zhongjing, additional, Huang, Tianxuan, additional, Jiang, Wei, additional, Yu, Bo, additional, Pu, Yudong, additional, Song, Zifeng, additional, Deng, Keli, additional, Cao, Zhurong, additional, Wang, Feng, additional, Jiang, Shao’en, additional, Liu, Shenye, additional, and Yang, Jiamin, additional

Published
2018
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39. Recent progress of hohlraum physics experiments in indirect-driven ICF in China

Author

LI, SanWei, primary, YANG, Dong, additional, LI, Xin, additional, LI, ZhiChao, additional, GUO, Liang, additional, XIE, XuFei, additional, KUANG, LongYu, additional, ZHANG, Lu, additional, HUO, WenYi, additional, WU, ChangShu, additional, CHEN, YaoHua, additional, SONG, Peng, additional, ZHANG, HuaSen, additional, CAO, ZhuRong, additional, HU, Xin, additional, HOU, LiFei, additional, YI, RongQing, additional, JIANG, XiaoHua, additional, LI, Qi, additional, SONG, TianMing, additional, PENG, XiaoShi, additional, XU, Tao, additional, LI, YuLong, additional, DENG, Bo, additional, DENG, KeLi, additional, WANG, QiangQiang, additional, YANG, Pin, additional, LI, Hang, additional, YUAN, Zheng, additional, WEI, HuiYue, additional, LIU, XiangMing, additional, ZHA, WeiYi, additional, LIU, YongGang, additional, WANG, ZheBin, additional, ZHANG, Huan, additional, ZHAN, XiaYu, additional, CHEN, Li, additional, MEI, Yu, additional, CHEN, Tao, additional, LI, Jin, additional, YANG, ZhiWen, additional, DU, HuaBing, additional, CHE, XingSen, additional, YANG, YiMeng, additional, YANG, ZhengHua, additional, JING, LongFei, additional, HE, XiaoAn, additional, LI, ChaoGuang, additional, WANG, Peng, additional, YU, RuiZhen, additional, Su, ChunXiao, additional, CHEN, Ming, additional, CUI, YanLi, additional, WANG, Feng, additional, LIU, ShenYe, additional, YANG, JiaMin, additional, JIANG, ShaoEn, additional, ZHANG, BaoHan, additional, LAN, Ke, additional, GU, PeiJun, additional, ZOU, ShiYang, additional, ZHENG, WuDi, additional, LIU, Jie, additional, and DING, YongKun, additional

Published
2018
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40. Progress and plans of X-ray temporal and spatial diagnosis technology of Shenguang facilities

Author

CAO, ZhuRong, primary, YUAN, Zheng, additional, CHEN, Tao, additional, DENG, Bo, additional, WANG, QiangQiang, additional, DENG, KeLi, additional, YANG, ZhiWen, additional, LI, Jin, additional, MIAO, WenYong, additional, JIANG, Wei, additional, YUAN, YongTeng, additional, LI, YuKun, additional, HU, Xin, additional, ZHANG, JiYan, additional, DONG, JianJun, additional, DING, YongKun, additional, MU, BaoZhong, additional, WANG, Feng, additional, LIU, ShenYe, additional, YANG, JiaMin, additional, JIANG, ShaoEn, additional, and ZHANG, BaoHan, additional

Published
2018
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41. Application of multi-layer KB microscope to implosion self-emission diagnosis

Author

杨志文 Yang Zhiwen, 杨正华 Yang Zhenghua, 邓博 Deng Bo, 丁永坤 Ding Yongkun, 黄天暄 Huang Tianxuan, 江少恩 Jiang Shaoen, 蒋炜 Jiang Wei, 陈家斌 Chen Jiabin, 董建军 Dong Jianjun, 唐琦 Tang Qi, 袁铮 Yuan Zheng, 李晋 Li Jin, 刘慎业 Liu Shenye, 何小安 He Xiaoan, 曹柱荣 Cao Zhurong, and 张海鹰 Zhang Haiying

Subjects
Microscope, Materials science, Optics, law, business.industry, Implosion, Electrical and Electronic Engineering, business, Multi layer, Atomic and Molecular Physics, and Optics, law.invention
Published
2013

42. Time response characteristics of X-ray detector system on Silex-Ⅰ laser facility

Author

何小安 He Xiaoan, 杜华冰 Du Huabin, 黎航 Li Hang, 曹柱荣 Cao Zhurong, 易荣清 Yi Rongqing, and 张海鹰 Zhang Haiying

Subjects
Materials science, Optics, Time response, law, business.industry, X-ray detector, Electrical and Electronic Engineering, Laser, business, Atomic and Molecular Physics, and Optics, law.invention
Published
2013

43. Fabrication and ultraviolet photoemission characteristics of novel Au photocathodes

Author

吴卫东 Wu Weidong, 曹柱荣 Cao Zhurong, 王雪敏 Wang Xuemin, 徐习斌 Xu Xibin, 易早 Yi Zao, 高扬 Gao Yang, 易有根 Yi Yougen, and 王瑜英 Wang Yuying

Subjects
Fabrication, Materials science, business.industry, Annealing (metallurgy), Nanoparticle, medicine.disease_cause, Atomic and Molecular Physics, and Optics, Cathode, law.invention, Sputtering, law, Secondary emission, medicine, Optoelectronics, Electrical and Electronic Engineering, Thin film, business, Ultraviolet
Published
2013

44. Design and development of a static X-ray imaging system used on SG-Ⅲ laser facility

Author

曹柱荣 Cao Zhurong, 杨正华 Yang Zhenghua, 韦明智 Wei Mingzhi, 李晋 Li Jin, 杨品 Yang Pin, 董建军 Dong Jianjun, 王维 Wang Wei, 闫亚东 Yan Yadong, and 刘慎业 Liu Shenye

Subjects
Materials science, Optics, Static X-Ray, business.industry, law, Electrical and Electronic Engineering, business, Laser, Atomic and Molecular Physics, and Optics, law.invention
Published
2013

45. Recent progress on physical experiment and target diagnostics in Research Center of Laser Fusion

Author

李三伟 Li Sanwei, 杨正华 Yang Zhenghua, 张惠鸽 Zhang Huige, 江少恩 Jiang Shaoen, 曹柱荣 Cao Zhurong, 王峰 Wang Feng, 陈晓东 Chen Xiaodong, 陈伯伦 Chen Bolun, 刘慎业 Liu Shenye, 丁永坤 Ding Yongkun, 杨家敏 Yang Jiamin, 黄天晅 Huang Tianxuan, 张继彦 Zhang Jiyan, 杨冬 Yang Dong, 缪文勇 Miao Wenyong, 李志超 Li Zhichao, 张保汉 Zhang Baohan, and 王哲斌 Wang Zhebin

Subjects
Optics, Materials science, business.industry, Electrical and Electronic Engineering, business, Inertial confinement fusion, Atomic and Molecular Physics, and Optics, Research center
Published
2013

46. Calculation of spatial temperature of implosion core zone

Author

刘慎业 Liu Shengye, 丁永坤 Ding Yongkun, 曹柱荣 Cao Zhurong, 江少恩 Jiang Shaoen, 黄天暄 Huang Tianxuan, 董建军 Dong Jianjun, and 张继彦 Zhang Jiyan

Subjects
Core (optical fiber), Physics, Implosion, Electrical and Electronic Engineering, Atomic physics, Atomic and Molecular Physics, and Optics, Computational physics
Published
2013

47. Measurement of material strength at high pressure

Author

杨家敏 Yang Jiamin, 袁永腾 Yuan Yongteng, 江少恩 Jiang Shaoen, 刘慎业 Liu Shenye, 王峰 Wang Feng, 曹柱荣 Cao Zhurong, 张文海 Zhang Wenhai, 李晋 Li Jin, 邓博 Deng Bo, 涂绍勇 Tu Shaoyong, 詹夏宇 Zhan Xiayu, 郝轶聃 Hao Yidan, 缪文勇 Miao Wenyong, and 丁永坤 Ding Yongkun

Subjects
Materials science, High pressure, Electrical and Electronic Engineering, Composite material, Strength of materials, Atomic and Molecular Physics, and Optics
Published
2013

48. Three-dimensional particle-in-cell simulation on gain saturation effect of microchannel plate

Author

Cao Zhurong, Deng Bo, Deng Keli, Tao Chen, Wang Qiangqiang, and Zheng Yuan

Subjects
Materials science, Nanotechnology, Electron, Mechanics, 01 natural sciences, Secondary electrons, 010305 fluids & plasmas, Cascade, 0103 physical sciences, Microchannel plate detector, Particle-in-cell, 010306 general physics, Saturation (chemistry), Instrumentation, Voltage, DC bias
Abstract

We present here the results of the simulation work, using the three-dimensional particle-in-cell method, on the performance of the lead glass microchannel plate under saturated state. We calculated the electron cascade process with different DC bias voltages under both self-consistent condition and non-self-consistent condition. The comparative results have demonstrated that the strong self-consistent field can suppress the cascade process and make the microchannel plate saturated. The simulation results were also compared to the experimental data and good agreement was obtained. The simulation results also show that the electron multiplication process in the channel is accompanied by the buildup process of positive charges in the channel wall. Though the interactions among the secondary electron cloud in the channel, the positive charges in the channel wall, and the external acceleration field can make the electron-surface collision more frequent, the collision energy will be inevitably reduced, thus the electron gain will also be reduced.

Published
2016

49. Measurement of X-ray emitted by bismuth ball using framing camera

Author

黎航 Li Hang, 陈伯伦 Chen Bolun, 刘慎业 Liu Shenye, 黄天暄 Huang Tianxuan, 江少恩 Jiang Shaoen, 袁铮 Yuan Zheng, 曹柱荣 Cao Zhurong, 张海鹰 Zhang Haiying, and 杨家敏 Yang Jiamin

Subjects
Optics, Materials science, chemistry, business.industry, X-ray, chemistry.chemical_element, Electrical and Electronic Engineering, business, Atomic and Molecular Physics, and Optics, Bismuth
Published
2012

50. Soft X-ray KBA microscope resolution and its influencing factors

Author

曹柱荣 Cao Zhurong, 董建军 Dong Jianjun, and 黎宇坤 Li Yukun

Subjects
Soft x ray, Materials science, Optics, Microscope, business.industry, law, Resolution (electron density), Electrical and Electronic Engineering, business, Atomic and Molecular Physics, and Optics, law.invention
Published
2012

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