张雅
更新时间:2023-09-21姓名:张雅
性别:女
出生年月:1984年05月
职称/职务:教授/省部级人才
学位/学历:博士/研究生
硕/博生导师:硕导、博导
联系方式:yazhang@whut.edu.cn
研究方向: 等离子体物理理论与数值模拟; 凝聚态物理理论;
教育背景与工作经历:
2016.06-今,ok138cn太阳集团古天乐,ok138cn太阳集团古天乐物理系,教授,博士生导师
2016.06-2021.10,ok138cn太阳集团古天乐,ok138cn太阳集团古天乐物理系,副教授,硕士生导师
2013/10-2015/10,比利时安特卫普大学,化学系,博士后
2013.07-2016.05,华中科技大学,物ok138cn太阳集团古天乐,博士后
2010.09-2013.06,大连理工大学,等离子体物理,博士
主要教学科研成果:
1.主要从事等离子体物理的解析理论和数值模拟研究,包括量子等离子体和经典等离子体两个领域。前者包括与离子束驱动的惯性约束聚变相关的高能量密度物理、温稠密物质(Warm Dense Matter, WDM) 等方向,采用量子流体动力学(Quantum Hydrodynamics, QHD) 模型,以线性解析理论和非线性数值模拟相结合的方法。后者包括磁约束聚变中的托卡马克启动过程,低温等离子体中的微等离子体、介质阻挡放电、容性耦合等离子体、气体击穿等问题,主要采用Particle-in-cell/Monte Carlo (PIC/MC) 模型。
2.已经在Plasma Sources Science and Technology,Journal of Applied Physics等国际高水平刊物上发表第一作者或通讯作者60多篇,最近2年课题组每年发表10篇论文以上。与比利时鲁汶大学、安特卫普大学等国外高校,以及国内华中科技大学等单位都建立了广泛和深入的学术联系。
主要科研项目:
1. 国家自科基金面上项目, 重离子束驱动温稠密物质的PIC/MC/QHD混合模拟研究
2. 国家自科基金面上项目, 微等离子体放电模式和模式转换的动理学研究
学术兼职:
中国电工技术学会等离子体及应用专业委员会委员(2021年至今);
中国核学会计算物理分会理事(2023-2028);
教育部学位中心博士、硕士和博士论文评阅人;
Plasma Sources Science and Technology、Physics of Plasmas等杂志评阅人
近2年发表文章列表:
[1] Q. Wang, H. Wu, Y. Wang, Y. Zhang, W. Jiang, and Y. Zhang, “Influence
of pulse width on the breakdown process of nanosecond pulse discharge at low pressure”, Journal of Physics D: Applied Physics 56, 465201 (2023)
[2] Y. Chen, X. Jiang, L. Yao, W. Jiang, H. Liu, and Y. Zhang, “Electron scattering cross sections from NH3: a comprehensive study based on R-matrix method”, Plasma Sources Science and Technology 32, 045017 (2023)
[3] Z. Chen, Z. Chen, W. Jiang, L. Guo, and Y. Zhang, “Line intensity calculation of laser-induced breakdown spectroscopy during plasma expansion in nonlocal thermodynamic equilibrium”, Optics Letters, 10.1364/OL.488250 (2023)
[4] Y. Zhang, F. Zhai, and W. Jiang, “Valley-Hall alternatively changing conductivity in gapped and strained graphene”, Optics Letters 48, 1998–2001 (2023)
[5] Y. Zhang, F. Zhai, and W. Jiang, “Valley-dependent conductivity and dispersion relation of surface magnetoplasmons”, Applied Surface Science 619, 156717 (2023)
[6] L. Chen, H. Wu, Z. Chen, Y. Wang, L. Yi, W. Jiang, and Y. Zhang, “Note on particle balance in particle-in-cell/Monte Carlo model and its implications on the steady-state simulation”, Plasma Sources Science and Technology 32, 034001 (2023)
[7] X. Li, H. Wu, Y. Zhong, C. Guo, L. Yi, W. Jiang, and Y. Zhang, “Breakdown mode and parameter space of micro-discharge sustained by thermionic emission”, Journal of Physics D: Applied Physics 56, 175202 (2023)
[8] S. Yu, H. Wu, J. Xu, Y. Wang, J. Gao, Z. Wang, W. Jiang, and Y. Zhang, “A generalized external circuit model for electrostatic particle-in-cell simulations”, Computer Physics Communications 282, 108468 (2023)
[9] Y. Zhang, Y. Wang, J. Xu, C. Guo, W. Jiang, and Y. Zhang, “Numerical characterization of dual radio frequency micro-discharges”, AIP Advances 13, 035111 (2023)
[10] W. Jiang, H. Wu, Z. Wang, L. Yi, and Y. Zhang, “Gas breakdown in radio-frequency field within MHz range: a review of the state of the art”, Plasma Science and Technology 24, 124018 (2022)
[11] Z. Chen, J. Xu, S. Yu, H. Wu, X. Huang, Z. Wang, L. Guo, W. Jiang, and Y. Zhang, “Numerical simulations of the effects of radiofrequency cables on the single-frequency capacitively coupled plasma”, Physics of Plasmas 29, 113507 (2022) (Editor’s Pick)
[12] S. Yu, Z. Chen, H. Wu, L. Guo, Z. Wang, W. Jiang, and Y. Zhang, “Best impedance matching seeking of single-frequency capacitively coupled plasmas by numerical simulations”, Journal of Applied Physics 132, 083302 (2022) (Cover and Editor’s Pick)
[13] L. Chen, Y. Wang, Y. Jia, X. Yang, C. Li, L. Yi, W. Jiang, and Y. Zhang, “Effect of Viscosity on Stopping Power for a Charged Particle Moving above Two-Dimensional Electron Gas”, Laser and Particle Beams 2022, e6903026 (2022)
[14] Y. Zhou, Y. Wang, H. Wu, Y. Zhang, W. Jiang, and G. Lapenta, “Numerical characterization of capacitively coupled plasmas modulated by ion beam injection”, Plasma Sources Science and Technology 31, 045028 (2022)
[15] X. Jiang, H. Liu, Y. Zhang, W. Jiang, M. Ayouz, and V. Kokoouline, “Cross sections for vibrational excitation and dissociative recombination of the CF3 + ion in collisions with low-energy electrons”, Plasma Sources Science and Technology 31, 045016 (2022)
[16] Y. Wang, Y. Zhou, H. Wu, Y. Zhang, W. Jiang, and G. Lapenta, “Computational study of microdischarges driven by electron beam injection with particle-in-cell/Monte Carlo collision simulations”, Journal of Applied Physics 131, 163301 (2022) (Editor’s Pick)
[17] H. Wu, Z. Chen, Z. Wang, B. Rao, W. Jiang, and Y. Zhang, “On the breakdown process of capacitively coupled plasma in carbon tetrafluoride”, Journal of Physics D: Applied Physics 55, 255203 (2022) (Cover and Editor’s Pick)
[18] H. Wu, Z. Chen, S. Yu, Q. Wang, X. Li, W. Jiang, and Y. Zhang, “The effects of match circuit on the breakdown process of capacitively coupled plasma driven by radio frequency”, Journal of Applied Physics 131, 153301 (2022)
[19] H. Wu, Z. Chen, L. Yi, W. Jiang, and Y. Zhang, “Note on the energy transport in capacitivelycoupled plasmas”, Plasma Sources Science and Technology 31, 047001 (2022)
[20] Y. Zhong, H. Wu, X. Li, J. Gao, W. Jiang, Y. Zhang, and G. Lapenta, “Numerical characterization of the breakdown process of dc-driven micro-discharges sustained by thermionic emission”, Journal of Physics D: Applied Physics 55, 215203 (2022)
[21] X. Zuo, Y. Zhou, Q. Zhang, H.-y. Wang, Z. Li, J. Zhu, X. Jiang, and Y. Zhang, “Two-dimensional particle-in-cell/monte carlo simulations of streamer formation and propagation in catalyst pores in a surface dielectric barrier discharge”, Plasma Processes and Polymers n/a, e2200025 (2022)
[22] J. Gao, S. Yu, H. Wu, Y. Wang, Z. Wang, Y. Pan, W. Jiang, and Y. Zhang, “Self-consistent simulation of the impedance matching network for single frequency capacitively coupled plasma”, Journal of Physics D: Applied Physics 55, 165201 (2022)