Your search keyword '"Ding, Yongkun"' showing total 22 results

1. Spin Transport Hydrodynamics of Polarized Deuterium-Tritium Fusion Plasma

Author

Hu, Ronghao, Zhou, Hao, Tao, Zhihao, Zhang, Zhihao, Lv, Meng, Zou, Shiyang, and Ding, Yongkun

Subjects

Physics - Plasma Physics

Abstract

The spin transport equations for polarized deuterium-tritium (DT) fusion plasma are derived with the density matrix formulation, which are used to investigate the hydrodynamics of polarized DT-gas-filled targets during indirectly driven inertial confinement fusion implosions. The depolarization of DT ions by strong self-generated magnetic fields can be captured by the spin transport equation. The neutron yield, angular distribution and neutron beam polarization are obtained from three-dimensional spin transport hydrodynamics simulations of the target implosions. The simulation results indicate that an optimized spin alignment of the polarized target can reduce the depolarization of DT ions and the neutron beams induced by polar mode asymmetries in indirectly driven implosions.

Published

2022

2. Storage and encryption of submicron spatial resolution X-ray images based on Ag-doped phosphate glass

Author

Li, Yucheng, Ren, Kuan, Cheng, Shuai, Hu, Yahua, Yang, Xuechun, Hao, Shutong, Liu, Shenye, Li, Naixin, Xu, Zhan, Feng, He, Zhang, Xing, Xu, Tao, Zhou, Xiaoyan, Wu, Yuji, Yang, Zhenghua, Yang, Pin, Dong, Jianjun, Li, Yulong, Wei, Huiyue, Peng, Xiaoshi, Liu, Xiangming, Guan, Zanyang, Yang, Zhiwen, Li, Jin, Dong, Yunsong, Yang, Dong, Yi, Tao, Yang, Jiamin, Ding, Yongkun, Sun, Zhixiang, Liu, Xiaolin, Gu, Mu, Zhao, Jingtai, Yang, Guang, and Li, Qianli

Published

2023

3. ICF-PR-Net: A deep phase retrieval neural network for X-ray phase contrast imaging of inertial confinement fusion capsules

Author

Shi, Kaijun, primary, Zhang, Xing, additional, Wang, Xin, additional, Xu, Jie, additional, Mu, Baozhong, additional, Yan, Ji, additional, Wang, Feng, additional, Ding, Yongkun, additional, and Wang, Zhanshan, additional

Published

2024

4. Mode-coupled perturbation growth on the interfaces of cylindrical implosion: A comparison between theory and experiment

Author

Zhang, Xinyu, primary, Zhang, Shuai, additional, Yan, Zixiang, additional, Duan, Huiling, additional, Ding, Yongkun, additional, and Kang, Wei, additional

Published

2024

5. Tamping the movement of the laser absorption cutoff position by using gold foam hohlraum

Author

Zhang, Lu, primary, Li, Liling, additional, Lin, Zhiwei, additional, Dong, Yunsong, additional, Jing, Longfei, additional, Zheng, Jianhua, additional, Kuang, Longyu, additional, Li, Hang, additional, Zheng, Jinhua, additional, Zhang, Jiyan, additional, Song, Tianming, additional, Zhang, Zhiyu, additional, Zhao, Yang, additional, Niu, Gao, additional, Yang, Dong, additional, Yang, Jiamin, additional, and Ding, Yongkun, additional

Published

2024

6. Semi-hydro-equivalent design and performance extrapolation between 100 kJ-scale and NIF-scale indirect drive implosion

Author

Zhang, Huasen, primary, Kang, Dongguo, additional, Wu, Changshu, additional, Hao, Liang, additional, Shen, Hao, additional, Zou, Shiyang, additional, Zhu, Shaoping, additional, and Ding, Yongkun, additional

Published

2023

7. Quantitative observation of monochromatic X-rays emitted from implosion hotspot in high spatial resolution in inertial confinement fusion

Author

Ren, Kuan, Wu, Junfeng, Dong, Jianjun, Li, Yaran, Huang, Tianxuan, Zhao, Hang, Liu, Yaoyuan, Cao, Zhurong, Zhang, Jiyan, Mu, Baozhong, Yan, Ji, Jiang, Wei, Pu, Yudong, Li, Yulong, Peng, Xiaoshi, Xu, Tao, Yang, Jiamin, Lan, Ke, Ding, Yongkun, Jiang, Shaoen, and Wang, Feng

Published

2021

8. Numerical study of spin-polarized deuterium-tritium fuel persistence in inertial confinement fusion implosions

Author

Hu, Ronghao, primary, Zhou, Hao, additional, Tao, Zhihao, additional, Zhang, Zhihao, additional, Lv, Meng, additional, Zou, Shiyang, additional, and Ding, Yongkun, additional

Published

2023

9. Semi-hydro-equivalent design and performance extrapolation between 100 kJ-scale and NIF-scale indirect drive implosion.

Author

Zhang, Huasen, Kang, Dongguo, Wu, Changshu, Hao, Liang, Shen, Hao, Zou, Shiyang, Zhu, Shaoping, and Ding, Yongkun

Subjects

IMPLOSIONS, RADIATION, LASERS, HEATING, VELOCITY

Abstract

Extrapolation of implosion performance between different laser energy scales is investigated for indirect drive through a semi-hydro-equivalent design. Since radiation transport is non-hydro-equivalent, the peak radiation temperature of the hohlraum and the ablation velocity of the capsule ablator are not scale-invariant when the sizes of the hohlraum and the capsule are scale-varied. A semi-hydro-equivalent design method that keeps the implosion velocity Vi, adiabat αF, and P L / R h c 2 (where PL is the laser power and Rhc is the hohlraum and capsule scale length) scale-invariant, is proposed to create hydrodynamically similar implosions. The semi-hydro-equivalent design and the scaled implosion performance are investigated for the 100 kJ Laser Facility (100 kJ-scale) and the National Ignition Facility (NIF-scale) with about 2 MJ laser energy. It is found that the one-dimensional implosion performance is approximately hydro-equivalent when Vi and αF are kept the same. Owing to the non-hydro-equivalent radiation transport, the yield-over-clean without α-particle heating (YOCnoα) is slightly lower at 100 kJ-scale than at NIF-scale for the same scaled radiation asymmetry or the same initial perturbation of the hydrodynamic instability. The overall scaled two-dimensional implosion performance is slightly lower at 100 kJ-scale. The general Lawson criterion factor scales as χ no α 2 D ∼ S 1.06 ± 0.04 (where S is the scale-variation factor) for the semi-hydro-equivalent implosion design with a moderate YOCnoα. Our study indicates that χnoα ≈ 0.379 is the minimum requirement for the 100 kJ-scale implosion to demonstrate the ability to achieve marginal ignition at NIF-scale. [ABSTRACT FROM AUTHOR]

Published

2024

10. Demonstration of indirectly driven implosion experiments with cryogenic pure deuterium layered capsules on the Shenguang Laser Facility

Author

Ge, Fengjun, primary, Pu, Yudong, additional, Wang, Kai, additional, Huang, Tianxuan, additional, Sun, Chuankui, additional, Qi, Xiaobo, additional, Wu, Changshu, additional, Gu, Jianfa, additional, Chen, Zhongjin, additional, Yan, Ji, additional, Jiang, Wei, additional, Yang, Dong, additional, Dong, Yunsong, additional, Wang, Feng, additional, Zhou, Shiyang, additional, and Ding, Yongkun, additional

Published

2023

11. 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

12. Compact multichannel spectrometer employed for soft x-ray spectrum diagnostics at the Shenguang-III Laser Facility

Author

Liu, Hanwei, primary, Mu, Baozhong, additional, Liu, Shenye, additional, Xie, Xufei, additional, Che, Xingsen, additional, Xu, Jie, additional, Wang, Xin, additional, Chen, Liang, additional, Li, Wenjie, additional, Shi, Kaijun, additional, and Ding, Yongkun, additional

Published

2022

13. 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

14. The effect of the shroud window membrane on the x-ray drive characterization of cryogenic hohlraums.

Author

Yang, Dong, Li, Zhichao, Li, Sanwei, Hou, Lifei, Guo, Liang, Zhu, Tuo, Yi, Rongqing, Du, Huabing, Song, Tianming, Jiang, Xiaohua, Peng, Xiaoshi, Zhan, Xiayu, Li, Yulong, Wang, Feng, Yang, Jiamin, Jiang, Shaoen, Zheng, Jian, and Ding, Yongkun

Subjects

INERTIAL confinement fusion, X-rays, PHOTON flux

Abstract

Both direct and indirect drive concepts of inertial confinement fusion rely on targets with cryogenic thermonuclear fuel shells for ignition. Experiments on the Shenguang-III prototype laser facility using laser-driven gas-filled hohlraums show distinct differences between cryogenic (20 K) and warm hohlraums. Although the measured x-ray flux in the photon range from 1.6 to 4.4 keV (Au M-band) is identical between cryogenic and warm hohlraums, the cryogenic hohlraum has a much slower rate of rise and is 20% lower in peak intensity of x-ray flux in the photon range from 0.1 to 4 keV. The reasons for this drive deficit between cryogenic and warm hohlraums are investigated using a similar series of hohlraum experiments. The experiments employ three types of hohlraums to distinguish the effect of a shroud window membrane and condensates. Warm hohlraums with a shroud window membrane replicate the slower rate of rise of radiation flux of cryogenic targets. When the shroud window is present, the measured x-ray flux in the hohlraum shows a drive deficit that decreases with time. However, the measured deficit increases as the viewing angle increases. All of these results indicate that the portion of the shroud not illuminated by the lasers absorbs the outgoing x-ray flux from the hohlraum. [ABSTRACT FROM AUTHOR]

Published

2023

15. Characterization of radiation drive by measuring the localized re-emitted flux from the capsule in inertial confinement fusion experiments

Author

Xie, Xufei, primary, Wu, Changshu, additional, Chen, Jinwen, additional, Liu, Shenye, additional, Hou, Lifei, additional, Du, Huabin, additional, Cai, Hongbo, additional, Guo, Liang, additional, Ren, Kuan, additional, Li, Zhichao, additional, Yang, Dong, additional, Li, Sanwei, additional, Ge, Fengjun, additional, Li, Xin, additional, Huang, Yunbao, additional, Jing, Longfei, additional, Shang, Wanli, additional, Liu, Yaoyuan, additional, Jiang, Xiaohua, additional, Zhan, Xiayu, additional, Yang, Yimeng, additional, Wang, Feng, additional, He, Haien, additional, Zou, Shiyang, additional, Yang, Jiamin, additional, Jiang, Shaoen, additional, Zhang, Baohan, additional, and Ding, Yongkun, additional

Published

2022

16. 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

17. Two plasmon decay instability stimulated by large-incidence-angle laser in inertial confinement fusion

Author

Changwang, Lian, primary, Ji, Yu, additional, Rui, Yan, additional, Cao, Shi-Hui, additional, Ren, Chuang, additional, Wan, Zhen-Hua, additional, Yang, Dong, additional, Ding, Yongkun, additional, and Zheng, Jian, additional

Published

2022

18. First Indirect Drive Experiment Using a Six-Cylinder-Port Hohlraum

Author

Li, Xin, primary, Dong, Yunsong, additional, Kang, Dongguo, additional, Jiang, Wei, additional, Shen, Hao, additional, Kuang, Longyu, additional, Zhang, Huasen, additional, Yang, Jiamin, additional, Wang, Qiang, additional, Yin, Chuansheng, additional, Huang, Tianxuan, additional, Miao, Wenyong, additional, Chen, Zhongjing, additional, Tang, Qi, additional, Peng, Xiaoshi, additional, Song, Zifeng, additional, Zhang, Xing, additional, Dong, Jianjun, additional, Deng, Bo, additional, Deng, Keli, additional, Wang, Qiangqiang, additional, Yang, Yimeng, additional, Liu, Xiangming, additional, Jing, Longfei, additional, Li, Hang, additional, Liu, Zhongjie, additional, Yu, Bo, additional, Yan, Ji, additional, Pu, Yudong, additional, Tu, Shaoyong, additional, Yuan, Yongteng, additional, Yang, Dong, additional, Wang, Feng, additional, Zhou, Wei, additional, Huang, Xiaoxia, additional, He, Zhibing, additional, Zhang, Haijun, additional, Liu, Yiyang, additional, Zou, Shiyang, additional, Zhang, Baohan, additional, Ding, Yongkun, additional, Zhu, Shaoping, additional, and Zhang, Weiyan, additional

Published

2022

19. Measurement of Time-Dependent Drive Flux on the Capsule for Indirectly Driven Inertial Confinement Fusion Experiments

Author

Xie, Xufei, primary, Hou, Lifei, additional, Cai, Hongbo, additional, Wu, Changshu, additional, Peng, Xiaoshi, additional, Duan, Xiaoxi, additional, Liu, Shenye, additional, Yang, Dong, additional, Li, Sanwei, additional, Li, Zhichao, additional, Li, Qi, additional, Liu, Yonggang, additional, Du, Huabin, additional, Ren, Kuan, additional, Ge, Fengjun, additional, Yang, Weiming, additional, Guo, Liang, additional, Shang, Wanli, additional, Che, Xingsen, additional, Jing, Longfei, additional, Li, Yulong, additional, Wei, Huiyue, additional, Yang, Yimeng, additional, Sun, Ao, additional, Yu, Ruizhen, additional, Huang, Yunbao, additional, Jiang, Xiaohua, additional, Xu, Tao, additional, He, Xiaoan, additional, Li, Chaoguang, additional, Li, Yingjie, additional, Wang, Feng, additional, He, Haien, additional, Yang, Jiamin, additional, Du, Kai, additional, Jiang, Shaoen, additional, Zhang, Baohan, additional, and Ding, Yongkun, additional

Published

2022

20. 基于神光100 kJ装置的五倍频汤姆孙散射评估

Author

Zhao Hang, 赵航, primary, Li Zhichao, 李志超, additional, Li Xin, 李欣, additional, Liu Yaoyuan, 刘耀远, additional, Gong Tao, 龚韬, additional, Guo Liang, 郭亮, additional, Li Sanwei, 李三伟, additional, Jiang Xiaohua, 蒋小华, additional, Li Qi, 李琦, additional, Pan Kaiqiang, 潘凯强, additional, Chen Chaoxin, 陈朝鑫, additional, Yang Dong, 杨冬, additional, Ding Yongkun, 丁永坤, additional, and Wang Feng, 王峰, additional

Published

2022

21. 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

22. A simple analytical model of laser direct-drive thin shell target implosion

Author

Yu, Bo, primary, Huang, Tianxuan, additional, Yao, Li, additional, Sun, Chuankui, additional, Shang, Wanli, additional, Wang, Peng, additional, Peng, Xiaoshi, additional, Tang, Qi, additional, Song, Zifeng, additional, Jiang, Wei, additional, Chen, Zhongjing, additional, Pu, Yudong, additional, Yan, Ji, additional, Dong, Yunsong, additional, Yang, Jiamin, additional, Ding, Yongkun, additional, and Zheng, Jian, additional

Published

2021