·Paper Publications
- [1] Yifeng Zeng, Hao Hu, Yan Wang and TongningHu#, Analysis of fringe field effects on measurement errors for Q-scanning-based emittance diagnosis system, Nuclear Engineering and Technology, 2024, Accepted.
- [2] Haimeng Wang, Yifeng Zeng, Hao Hu, Junyang Li and Tongning Hu#, Design and optimization of a compact high-energy electron source applied to on-site non-destructive testing for electrical equipment, Nuclear Science and Techniques, 2024, Accepted.
- [3] Xiaoyu Peng, Hao Hu, Tongning Hu#, Jian Pang, Jianjun Deng and Guangyao Feng#, Emittance Optimization of Gridded Thermionic-Cathode Electron Gun for High-Quality Beam Injectors, Nuclear Science and Techniques, 2024, Accepted.
- [4] TongningHu, Yifeng Zeng, et al., Improvement of transmission-line-based fault locating for typical travelingwave accelerator with constant-gradient structures, Nuclear Engineering Technology, 2024, 56: 2011-2018.
- [5] Yifeng Zeng, Hao Hu, Tongning Hu#, Correction and improvement for transverse emittance diagnosis based on Q-scanning techniques, Nuclear Science and Techniques, 2024, Accepted.
- [6] TongningHu, Yifeng Zeng, et al., Design Considerations of a Magnet-based Diagnosis System with Compact Layout for Typical Beam Injector, IEEE Transactions on Applied Superconductivity, 2024, 34(5): 4901705.
- [7] Tongning Hu, Haimeng Wang, et al., Fault locating for traveling-wave accelerator based on transmission line theory, Nuclear Science and Techniques, 2023, 34(8): 116..
- [8] Tongning Hu, Junyang Li, et al., Study of longitudinal phase space for typical beam injector via analytical method, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 2023, 1045: 167628..
- [9] Junyang Li, Tongning Hu#, et. al., Physical Design of a Compact High-energy Electron Source Applied to On-site Non-destructive Testing, CIEEC2022最佳论文奖(Best Paper Reward, 50/1000).
- [10] Tongning Hu, Bingqian, Zeng, Junyang Li, et al., Analysis and design considerations of coupler tuning based on improved equivalent circuit and 3D-EM simulations [J]. Japanese Journal of Applied Physics, 2022, 61(046003): 1-7..