余冠英

余冠英，男，1991年7月生，博士，特任研究员。2014年本科毕业于东北大学热能与动力工程专业，2017年获得中国科学技术大学核科学与核技术硕士学位，2021年获加州大学戴维斯分校电气与计算机工程博士学位。2021-2025年，任加州大学戴维斯分校博士后与项目科学家，从事等离子体微波诊断方向的研究。

 项目：

[1]Department of Energy, U.S., Millimeter-Wave Imaging Technology Development for Real-time 2D and 3D Fusion Plasma Diagnostics, Project scientist;

[2]Department of Energy, U.S., DIII-D National Fusion Program Research and Facility Operations and Advanced Fusion Technology Research and Development, Subcontract on ECE-I operation, Project scientist;

[3]Department of Energy, U.S., AI/Deep Learning FRNN Software for Prediction and Real-Time Control of DIII-D Plasma Control program, Project scientist.

代表性著作：

[1] Li, Xiaoliang, Yu, Guanying*, et al. "The dual-electron cyclotron emission based measurement of 3D structures on DIII-D tokamak." Plasma Physics and Controlled Fusion 67.11 (2025): 115009.

[2] Yu, Guanying, et al. "Modelling of the electron cyclotron emission burst from a laboratory tokamak plasma with loss-cone maser instability." Journal of Plasma Physics 90.6 (2024): 985900601.

[3] Yu, Guanying, et al. "Modeling the electron cyclotron emission radiation signature from suprathermal electrons in a tokamak." Review of Scientific Instruments 95.7 (2024).

[4] Yu, Guanying, et al. "Understanding the negative triangularity ELM trigger and ELM free state on DIII-D with ECE-imaging." Physics of Plasmas 30.6 (2023).

[5] Yu, Guanying, et al. "ECEI characterization of pedestal fluctuations in quiescent H-mode plasmas in DIII-D." Plasma Physics and Controlled Fusion 64.9 (2022): 095014.

[6] Yu, Guanying, et al. "Diagnosing the pedestal magnetic field and magnetohydrodynamics radial structure with pedestal–scrape of layer electron cyclotron emission radiation inversion in H-mode plasma." Review of Scientific Instruments (invited) 93.10 (2022).

[7] Yu, Guanying., et al. "Noise suppression for MHD characterization with electron cyclotron emission imaging 1D technique." Plasma Physics and Controlled Fusion 63.5 (2021): 055001.

国际会议邀请报告

[1]American Physics Society-Division of Plasma Physics 2022, Spokane, WA

 Understanding the negative triangularity ELM trigger and ELM free state on DIII-D with ECE-imaging

[2]High temperature plasma diagnostics 2022, Rochester, NY

 Diagnosing the pedestal magnetic field and magnetohydrodynamics radial structure with pedestal–scrape of layer electron cyclotron emission radiation inversion in H-mode plasma.

[3]Transport Task Force 2023, Madison, WN

 New capabilities of edge/SOL transport study with ECE-Imaging

美国燃烧等离子体协会报导：

 Guanying Yu, System-on-chip technology: game changer for burning plasma diagnosis, 2020

https://www.burningplasma.org/newsandevents/?article=enews&issue=070120

DIII-D研究亮点

https://diii-d.gat.com/diii-d/Weekly061821