钟翊君，女，1992年10月生，湖南桃江人，中共党员，博士，硕士研究生导师，衡阳市“小荷”科技人才。南华大学核聚变与等离子体物理创新团队成员，主要从事核聚变与等离子体物理中中性束/波与等离子体相互作用、湍流输运、集成模拟等方面研究。近年来，主持国家自然科学基金项目、湖南省自然科学基金省市联合项目、湖南省教育厅一般项目等多项国家级和省部级科研项目，作为核心人员参与国家磁约束聚变能专项、国家自然科学基金项目多项，发表高水平学术论文20余篇，其中以第一作者和通讯作者发表SCI、EI收录10余篇。

【联系方式】

通讯地址：湖南省衡阳市常胜西路28号，421001

E-mail:zhongyijun152@126.com;253102661@qq.com

办公室：南华大学军工楼230室

【近年科研项目】

[1]国家自然科学基金委员会,青年科学基金项目, 12305244,电子回旋波抑制托卡马克装置杂质聚芯的集成模拟研究, 2024-01-01至2026-12-31,在研,主持。

[2]湖南省自然科学基金省市联合项目，托卡马克中辅助加热改善等离子体约束的集成模拟研究, 2021-01-01至2023-12-31，2021JJ50095，已结题，主持。

[3]衡阳市“小荷”科技人才专项, 2024/5-2025/5,在研,主持。

[4]湖南省教育厅科学研究一般项目，偏滤器热流控制条件下芯部等离子体约束的集成模拟研究，2021年，21C0309，已结题，主持。

[5]国家磁约束核聚变能发展研究专项，2018YFE0303102，偏滤器热流控制环境下芯部等离子体约束集成模拟与实验，2019-01-01至2023-12-31,已结题，参与。

[6]国家磁约束核聚变能发展研究专项，2022YFE03070003，射频波启动和维持仿星器/球形环等离子体研究，2022-05-01至2027-04-30,在研，参与。

[7]国家自然科学基金委员会,面上项目, 12075114,磁约束聚变装置中离子回旋波和中性束注入联合加热的协同效应研究, 2021-01至2024-12,在研,参与。

[8]国家自然科学基金委员会,项目, 11675073,托卡马克边缘等离子体密度涨落对低混杂波电流驱动影响的理论研究, 2017-01-01至2020-12-31,已结题，参与。

【近年发表论著】

[1]Yijun. Zhong, Qianhong. Huang*, Xueyu. Gong, Qingyi. Tan, Peng. Yu, Guang .Yang,Zhanhui. Wang,and Min. Xu. Integrated simulation analysis of the HL-2M high-parameter hybrid scenario.Nuclear Fusion, 2023, 63:036012.(第一作者，中科院一区)

[2]Yijun Zhong,Qianhong Huang*, Xueyu Gong* ,Qingyi. Tan, Peng.Yu, Guang.Yang, Zhanhui. Wang,and Min. Xu. Electron cyclotron current drive under neutral beam injection on HL-2M,Nuclear Fusion,2022,62:126027.(第一作者，中科院一区)

[3]Zheng, P., Feng, J., Lu, L., Yin, L., Huang, Q. H., Gong, X. Y.,Zhong, Y.(2024). Impact of hot plasma effects on electron cyclotron current drive in tokamak plasmas. Nuclear Fusion.(通讯作者，中科院一区)

[4]Zhou F, Yin L, Zheng P,Yijun Zhong,et al. The combined current drive of the lower hybrid wave and the high harmonic fast wave under the influence of the radial transport of fast electrons[J]. Journal of the Korean Physical Society, 2024, 84(8): 618-625.

[5]Y.J. Zhong, Q.H. Huang*, X. Y. Gong*, Q.Y. Tan,P.W. Zheng,J. Wang,Y.F. Shi. Simulation of plasma scenarios for CFETR phase II based on engineering design parameters,Fusion Engineering and Design,2021,172:112912.

[6]Qingyi Tan, Zhe Wang, Qianhong Huang, Xueyu Gong*,Yijun Zhong*, Chengzhi Cao, Zhanhui Wang. Study on the impact of N/Ne impurity seeding on neutrals in HL-2A tokamak.Physics of Plasmas, 2023, 30(2): 022501.

[7]Yu, P., Huang, Q.,Zhong, Y*. et al. H-mode experimental integrated modeling of impurity injection to control divertor heat flux on HL-2A.Journal of the Korean Physical Society.(2023) 82:755–762

[8]Yizhuohang Liu, ZHENG P, Xueyu G,Yijun Zhong, et al. Numerical study of plasmas start-up by electron cyclotron waves in NCST spherical tokamak and CN-H1 stellarator[J]. Plasma Science and Technology, 2024, 26(7): 075101.

[9]C.Y. Li, P.W. Zheng*, X.C. Jiang, L. Yin, L.H. He, Huang Q.H.,Y.J. Zhong, X.Y. Gong. Effective current drive in the pedestal region of high-confinement tokamak plasma using electron cyclotron waves[J]. Nuclear Fusion, 2022, 62(9): 096027.

[10] P W Zheng*, L H He, L Yin, X Q Lu, Q H Huang,Y J Zhong,S Deng, X C Jiang, X Y Gong. Simulation of the Ohkawa-mechanism- dominated current drive of electron cyclotron waves using linear and quasi-linear models[J]. Plasma Physics and Controlled Fusion, 2021, 63(2): 025016.

[11] Lan Yin, Pingwei Zheng*, Xueyu Gong, Cheng Yang, Xianghui Yin, Chengyi Song, Qianhong Huang, You Chen,Yijun Zhong.New synergy effects of the lower hybrid wave and the high harmonic fast wave current drive[J]. Nuclear Fusion, 2022, 62(6): 066023.

[12]Yang T,Zhong Y,Tan Q, et al. Inelastic collision effects of high-energy neutrons in tungsten materials[J]. Journal of Nuclear Materials, 2022, 569: 153934.

[13]Song C, Wang J, Wu B,Yijun Zhong,etal. Numerical simulations on loss of ICRF-heated NBI ions in EAST[J]. Plasma Physics and Controlled Fusion, 2024, 66(7): 075003.

[14]Ye H R, Tan Q Y, Wang Z,Yijun Zhong, et al. Correlation between impurity radiation rollover and divertor detachment with boundary impurity seeding in HL-2A[J]. Physica Scripta, 2024, 99(4): 045603.

[15]Song, C., Wu, B., Gong, X., Wang, J., Chen, Y., Hao, B., Ti, A., Wang, S., He, L., Zhong, G. and Yin, L.,Zhong Y.,2022. Investigation of the synergistic effects of ICRF+ NBI heating in EAST plasma discharges. Plasma Physics and Controlled Fusion, 65(2), p.025003.

[16]Tan, Q., Gong, X., Huang, Q.,Zhong, Y.,& Yang, T. . Theoretical study of the impedance matching of the ferrite tuner system for ICRF heating. Fusion Science and Technology, 2022,78(1), 76-88.

[17]Tan, Q., Gong, X., Huang, Q., &Zhong, Y. Theoretical Research of Single Ferrite Tuner Systems with Magnetic Field Modulation in the Ion Cyclotron Range of Frequency. Fusion Science and Technology, 2020, 76(2), 88-94.

[18]Du, D., Xiang, D., Cao, J. J., Yin, L.,Zhong, Y. J., & Gong, X. Y. Excitation of Trivelpiece–Gould waves and helicon waves by double-saddle antenna in H-1 heliac plasma. Journal of the physical society of Japan, 2019, 88(5), 054501.

[19]钟翊君,龚学余*,黄千红,谭清懿.负径向电场对带电粒子俘获率影响的数值模拟,原子能科学技术, 2019, 53(11): 2129-2134.

[20]杨光,钟翊君*,龚学余*,黄千红,郑平卫.杂质效应对电子回旋波电流驱动影响的集成模拟研究，核技术，2022,45(12):120201.

[21]钟翊君,龚学余,龚蕾,李新霞,尹陈艳.等离子体电流反向平衡位形中带电粒子运动的数值模拟研究,原子能科学技术,2016, 50(11): 1921-1927.

[22]钟翊君,龚学余.李新霞,李景春.托卡马克等离子体不同平衡位形下的电子回旋波电流驱动,计算物理, 2016, 33(4): 447-452.

[23]Yi-jun Zhong, Xue-yu Gong,Ye-ming Hu, Xin-xia Li. Numerical Study of Ion Orbits in EAST Plasmas with a Current-reversal Equilibrium Configuration,Journal of the Korean Physical Society, 2015, 66(11): 1692-1696.

【个人奖励】

1. 2024衡阳市“小荷”科技人才

2. 2023首届中国核工业教育学会优秀博士论文二等奖

   [3] 2023中国核工业教育学会教学成果奖二等奖（排名第三）

   [4] 2018湖南省优秀硕士学位论文