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“修身以为弓,矫思以为矢,立义以为的,奠而后发,发必中矣。”
CURRICULUM VITAE
Education:
Sep. 2007 -- Dec. 2010: ASIPP, CAS, Ph.D., Nuclear Science and Technology.
Sep. 2004 -- Jul. 2007: AIOFM, CAS, M.S., Computer Science and Technology.
Sep. 2000 -- Jul. 2004: HFUT, B.S., Computer Science and Technology.
Position:
Jun. 2020 -- Current: Senior Engineer, SNST, USTC.
Mar. 2011 -- May. 2020: Engineer, SNST, USTC.
Sep. 2013 -- Mar. 2014: Visiting Researcher, ITER IO, Cardarache, France.
Research
研究方向
蒙特卡罗方法是一种以概率统计理论为指导的数值计算方法,使用随机数(或伪随机数)来解决问题,特别适用于复杂三维几何结构中的大规模粒子输运计算,广泛应用在反应堆物理、加速器物理以及医学物理领域。
本人致力于利用蒙卡方法及蒙卡程序从事辐射防护,医学物理相关的教学与工程技术研发工作。目前感兴趣的研究方向包括:
辐射场模拟计算
承担CFETR概念设计及工程设计项目中包层中子学计算与全堆辐射场计算分析的任务,负责全局减方差方法和“长历史问题”的研究,显著提升了辐射场计算分析的效率与精确性。先后开发了中子学与热工分析耦合计算分析软件以及GVR全堆辐射场计算软件。
辐射探测器设计
自2014年起负责本科专业必修课“核工程实验”的授课以及仪器研发,研制了“基于碘化钠谱仪的伽马能谱测量”的实验平台;自主设计并开发了伽马能谱分析软件并应用于实验教学中。
利用这套实验仪器,可以开展一系列模拟计算与实验测量值的对比实验研究。
目前主要致力于“宽能中子探测器的慢化体设计与优化”,拟研制出具有自主知识产权的宽能中子剂量当量仪。
核医学成像模拟与三维重建
与市第三人民医院开展了《基于FCM算法的脑肿瘤可视化三维重建算法研究》等。
项目资助情况(截止2022年):
6.面向BNCT的混合粒子辐射场下剂量计算及生物效应研究, 安徽省教育厅, 能源研究院协同创新项目,子课题主持.
5. 三维辐射场计算方法中基于蒙卡的全局减方差关键问题研究, 国家基金委, 国家自然基金, 项目主持.
4. 基于权窗的大规模中子场输运计算中“长历史”问题研究, 中国科学技术大学, 青年创新基金, 项目主持.
3. 宽能中子辐射监测仪慢化体设计,中国科学技术大学, 同步辐射实验室专项基金, 项目主持.
2. 水冷氚增殖包层技术研发, 科技部,ITER专项,子课题参与.
1. 磁约束聚变堆辐射安全关键问题和技术研究,教育部, 校重要培育方向,项目参与.
Publications
See also in my Scholar Google
From 2012~2023:
24. Li, J. Zheng, S. Feasibility Study to Byproduce Medical Radioisotopes in a Fusion Reactor. Molecules 2023, 28, 2040.
23. D Chen, J Cheng, HY He, C Ma, L Yao, CB Jin, YS Cao, J Li, P Ji Computed tomography reconstruction based on canny edge detection algorithm for acute expansion of epidural hematoma
Journal of Radiation Research and Applied Sciences 15 (3), 279-284
22. Li J, Yang H, Chen J, et al. Nuclear Response Analysis of TFC for CFETR-I Using an Optimized GVR Approach[J]. Journal of Fusion Energy, 2020, 39(1): 1-7.
21. Jiang, K., Ding, W., Zhang, X., Li, J., Ma, X., Huang, K., ... & Liu, S. (2018). Development of neutronic-thermal hydraulic-mechanic-coupled platform for WCCB blanket design for CFETR. Fusion Engineering and Design, 137, 312-324.
20. Nie X, Li J, Wu Y, et al. A Method to Alleviate the Long History Problem Encountered in Monte Carlo Simulations via Weight Window Variance Reduction[J]. Journal of Fusion Energy, 2017, 36(6): 204-212.
19. 张恒权, 李佳, 祝庆军, 等. 基于权窗的全局减方差方法中 “长历史” 问题的研究与改进[J]. 核技术, 2017, 40(12): 120602.
18. Zhang X, Songlin L I U, Xia L I, et al. Updated neutronics analyses of a water cooled ceramic breeder blanket for the CFETR[J]. Plasma Science and Technology, 2017, 19(11): 115602.
17. Nie X C, Li J, Liu S L, et al. Global variance reduction method for global Monte Carlo particle transport simulations of CFETR[J]. Nuclear Science and Techniques, 2017, 28(8): 1-7.
16. Jiang K, Zhang X, Li J, et al. Using one hybrid 3D-1D-3D approach for the conceptual design of WCCB blanket for CFETR[J]. Fusion Engineering and Design, 2017, 114: 57-71.
15. Li J, Jiang K, Zhang X, et al. Nuclear-thermal-coupled optimization code for the fusion breeding blanket conceptual design[J]. Fusion Engineering and Design, 2016, 113: 37-42.
14. Xiaokang Z, Songlin L I U, Qingjun Z H U, et al. Activation and environmental aspects of in-vacuum vessel components of CFETR[J]. Plasma Science and Technology, 2016, 18(11): 1130.
13. Zhu Q, Gao F, Liu S, et al. Depth profile of tritium concentration in solid tritium target using associated alpha particle spectrum[J]. Atomic Energy Science and Technology, 2016, 50(9): 1544-1549.
12. Qingjun Z, Jia L, Songlin L. Neutronics analysis of water-cooled ceramic breeder blanket for CFETR[J]. Plasma Science and Technology, 2016, 18(7): 775.
11. 聂星辰, 李佳, 赵平辉, 等. 蒙特卡罗模拟 CFETR 中子输运计算中的全局减方差方法应用及对比[J]. 核技术, 2016, 39(3): 30501-030501.
10. Jia L, Xiaokang Z, Fangfang G, et al. Neutronics comparison analysis of the water cooled ceramics breeding blanket for CFETR[J]. Plasma Science and Technology, 2016, 18(2): 179.
9. Wang S, Fu X, Ye M, et al. The Document Management of Major Scientific Projection of Fusion[C]//2013 21st International Conference on Nuclear Engineering. American Society of Mechanical Engineers Digital Collection, 2013.
8. Liu, S., Ding, F., Chen, X., Pu, Y., Li, J., Ma, X., & Luo, G. (2013, July). The Experimental Consideration for TBM Mock-Up Effect on Plasma Performance Based on MAPES Platform in EAST. In International Conference on Nuclear Engineering (Vol. 55829, p. V005T14A007). American Society of Mechanical Engineers.
7. 李佳, 祝庆军, 刘松林, 等. 三维适形放疗计划系统中照射射束自动建模方法的研究和实现 (英文)[J]. 中国科学技术大学学报, 2015, 9.
6. Jia, Li, et al. "Neutronics comparison analysis of the water cooled ceramics breeding blanket for CFETR." Plasma Science and Technology 18.2 (2016): 179.
5. Li, Jia, et al. "Activation analysis and comparison of bio-shield under ITER and ASP neutron irradiation." Journal of Fusion Energy 34.4 (2015): 727-732.
4. Jiang K, Li J, Zhang X, et al. The development and application of one thermal–hydraulic program based on ANSYS for design of ceramic breeder blanket of CFETR[J]. Journal of Fusion Energy, 2015, 34(5): 1088-1093.
3. Liu, S., Pu, Y., Cheng, X., Li, J., Peng, C., Ma, X., & Chen, L. (2014). Conceptual design of a water cooled breeder blanket for CFETR. Fusion Engineering and Design, 89(7-8), 1380-1385.
2. Xuebin M, Songlin L, Jia L, et al. Preliminary design of a helium-cooled ceramic breeder blanket for CFETR based on the BIT concept[J]. Plasma Science and Technology, 2014, 16(4): 390.
1. Li J, Liu S, Ma X, et al. Preliminary Neutronics Design and Analysis of the Bit Helium Cooling Ceramics Blanket for CFETR[C]//2013 21st International Conference on Nuclear Engineering. American Society of Mechanical Engineers Digital Collection, 2013.
From 2008~2011:
1. Li, Jia, et al. "Reconstrucion and visualization of 3D surface model from serial-sectioned contour points." 2010 3rd International Congress on Image and Signal Processing. Vol. 5. IEEE, 2010.
2. Li J, Wu Y, Li G, et al. Auto-Modeling of Three-Dimensional Radiation Beam in Accurate/Advanced Radiotherapy System (ARTS)[J]. Transactions, 2011, 104(1): 21-22.
3. Li J, Long P, Huang S, et al. Research and application of a fast 3D-reconstruction method in accurate radiotherapy treatment planning system[J]. Nuclear Techniques, 2010, 33(1): 69-74.
4. Li J, Huang S, Li G, et al. Reconstrucion and visualization of 3D surface model from serial-sectioned contour points[C]//2010 3rd International Congress on Image and Signal Processing. IEEE, 2010, 5: 2396-2400.
5. Xiao-feng, LI Jia LI. "Research and Implementation of Multi-Data Source Web Application Base on Pattern [J]." Microcomputer Information 15 (2008).
6. Huang S Q, Long P C, Li J, et al. Research and application of image registration based on ITK and VTK[J]. Jisuanji Yingyong/ Journal of Computer Applications, 2010, 30.
7. YAN, F., LUO, Y. T., LONG, P. C., LI, J., & HUANG, S. Q. (2010). ITK based reconstruction algorithm of digitally reconstructed radiographs and its application. Journal of Hefei University of Technology (Natural Science), 02.
8. Long, P., Zou, J., Huang, S., Li, J., Luo, Y., Yan, F., ... & FDS Team. (2010). GPU-based visualization in neutronics analysis. Nuclear Electronics and Detection Technology, 30(8), 1042-1045.
9. 吴亮亮, 应栋川, 邱岳峰, 王国忠, 张延云, 宋婧, ... & 李佳. (2011). 三维停堆剂量率计算程序研发及其在 EAST 上的应用.
Teaching
Physics in Nuclear Medicine (No. 048002)
Nuclear Engineering Experiment (No.214124)
