杨唯

基本信息 姓名 杨唯
系别 应用物理系
职称 副教授
联系方式 见学院黄页
电子邮件 weiyang@dhu.edu.cn
研究方向 低温等离子体物理、复杂等离子体物理
个人简介 2019.7 博士毕业于大连理工大学等离子体物理专业;
2016.9-2018.9 美国 Princeton University 博士联合培养;
2020.6 入选上海市青年科技英才扬帆计划;
2022.9 东华大学理学院副教授(破格)。
科研成果1.国家自然科学基金 青年项目 基于体产生机制的射频感性耦合负氢离子源理论建模和数值模拟研究 2022.01-2024.12 1/1;
2.上海市科学技术委员会 扬帆计划 面向磁约束核聚变中性束注入技术的无铯强流负氢离子源的优化研究 2020.07-2023.06 1/2;
3.中科院等离子体所 横向课题 微波等离子体助燃仿真开发技术 2020.10-2021.10 1/1;
4.三束材料改性教育部重点实验室 开放课题 无铯负氢离子源的优化研究 2023.08-2025.08 1/1;
5.国家自然科学基金 重点项目 微重力复杂等离子体相变研究 2021.01-2025.12 3/10;
6.国家自然科学基金 面上项目 大气压耦合放电射流及其制备自修复抗菌纤维表面研究 2022.01-2025.12 2/10;
7.国家自然科学基金 面上项目 表面波等离子体原位氮掺杂制备金刚石NV发光中心的研究 2022.01-2025.12 3/6;
8.国家自然科学基金 面上项目 常压局域增强脉冲等离子体与柔性微孔介质的相互作用及均匀性研究 2021.01-2024.12 6/10
代表性论文&科研
W Yang. Physics and Applications of Hydrogen Negative Ion Sources, Springer Nature 2023, Chapter 3
G-Y Sun, W Yang, J Chen, H-M Sun, B-H Guo, S Zhang, Y-H Wang, X Yang, A-B Sun, and G-J Zhang. Enhancing ion extraction with inverse sheath in negative hydrogen ion sources for NBI heating. Nucl. Fusion 2023, Accepted
H Huang, A V Ivlev, V Nosenko, W Yang, and C-R Du. Dissipative solitary waves in a two-dimensional complex plasma: amorphous versus crystalline. Phys. Rev. E 2023, 107 045205
S. Venturi, W. Yang, I D Kaganovich, and T Casey. An uncertainty-aware strategy for plasma mechanism reduction with directed weighted graphs. Physics of Plasmas 2023, 30 043904--Editor's Pick
W Yang, F Gao, and Y-N Wang. Effects of chamber size on electron bounceresonance heating and power deposition profile in a finite inductive discharge. Phys. Plasmas 2022, 29 063503
W Yang, F Gao, and Y-N Wang. Effects of the excited states on electron kinetics and power absorption and dissipation in inductively coupled Ar plasmas. AIP Advances 2022, 12 055222
W Yang, F Gao, and Y-N Wang. Conductivity effects during the transition from collisionless to collisional regimes in cylindrical inductively coupled plasmas. Plasma Sci. Technol. 2022, 24 055401
W Yang, F Gao, and Y-N Wang. Analysis of the chemical network in a volume-production high-current negative hydrogen ion source. Plasma Sources Science & Technology 2021, 30 065027
W Yangand Y-N Wang. Hybrid model of radio-frequency low-pressure inductively coupled plasma discharge with self-consistent electron energy distribution and 2D electric field distribution. Plasma Phys. Control. Fusion 2021, 63 035031
S-S Song, W Yang, W Liu, S Yin, Y-X Liu, F Gao, Y-N Wang, and Y-T Zhao. Two-dimensional spatial distribution and production mechanism of H- ions in cylindrical inductively coupled H2 discharges. Phys. Plasmas 2021, 28 073512
Y-R Zhang, X Wang, W Yang, F Gao, and Y-N Wang. How to balance computational cost and accuracy of the model for negative hydrogen ion sources? A level-lumping strategy. Plasma Sources Science & Technology 2021, 30 075028
W Yang, A V Khrabrov, I D Kaganovich, and Y-N Wang. Convenient analytical solution for vibrational distribution function of molecules colliding with a wall. Plasma Sources Science & Technology 2019, 28 10LT01
H Li, F Gao, D-Q Wen, W Yang, P-C Du, and Y-N Wang. Investigation of the power transfer efficiency in a radio-frequency driven negative hydrogen ion source. Journal of Applied Physics 2019, 125 173303
W Yang, S Averkin, A V Khrabrov, I D Kaganovich, Y-N Wang, S Aleiferis, and P Svarnas. Benchmarking and validation of global model code for negative hydrogen ion sources. Physics of Plasmas 2018, 25 113509--Editor's Pick
W Yang, H Li, F Gao, and Y-N Wang. A global model study of the population dynamics of molecular hydrogen and the generation of negative hydrogen ions in low-pressure ICP discharge with an expansion region: effects of EEPF. Plasma Sources Science & Technology 2018, 27 075006
F Gao, H Li, W Yang, J Liu, Y-R Zhang, and Y-N Wang. Experimental and numerical investigations of electron characteristics in 2 MHz and 13.56 MHz inductively coupled hydrogen plasmas with an expansion region. Physics of Plasmas 2018, 25 013515
W Yang, H Li, F Gao, and Y-N Wang. Hybrid simulations of solenoidal radio-frequency inductively coupled hydrogen discharges at low pressures. Physics of Plasmas 2016, 23 123517
W Yang, S-X Zhao, D-Q Wen, W Liu, Y-X Liu, X-C Li, and Y-N Wang. F-atom kinetics in SF6/Ar inductively coupled plasmas. Journal of Vacuum Science & Technology A 2016, 34 031305
代表性专利&其他
杨唯,温德奇,高飞,王友年. 感性耦合等离子体混合模型模拟软件 2016SR241275[P]. 发明类别:计算机软件著作权,登记日期:2016.08.30
杨唯,温德奇,高飞,王友年. 感性耦合等离子体体平均模型模拟软件 2017SR427672[P]. 发明类别:计算机软件著作权,登记日期:2017.08.07