共发表学术论文130余篇，其中第一作者通讯发表SCI论文28篇。

部分代表性SCI检索及期刊论文：

部分代表性论文：

[1]. Shaofeng Jia, Dongxu Yang, Pengcheng Sun, and Deliang Liang, “Open Circuit Fault-Tolerant Control of Novel Matrix-Torque-Component Machines Based on Multiple Operation Modes,” IEEE Trans on Transportation Electrification, pp, 2024.

[2]. Pengcheng Sun, Shaofeng Jia, Dongxu Yang, Deliang Liang, and Zhanqiang Luo, “Design and Comparative Analysis of Dual Winding Dual Magnet Machines With Different PM Arrangements,” IEEE Trans. Ind. App., Vol. pp ,2024

[3]. Pengcheng Sun, Shaofeng Jia, Dongxu Yang, Ziwei Liu, and Deliang Liang, “Analysis of a Novel Dual Winding Dual Magnet Machine With Compound Fault-Tolerance Capability,” IEEE Trans on Industrial Electronics, pp, 2024.

[4]. Pengcheng Sun, Shaofeng Jia, Dongxu Yang, and Deliang Liang, “Comparative Study of Novel Dual Winding Dual Magnet Flux Modulated Machines with Different Stator/Rotor Pole Combinations,” IEEE Trans on Transportation Electrification, Vol. 10, No.4, Dec., pp:9691-9700,2024.

[5]. Pengcheng Sun, Shaofeng Jia, Wenlong Liu, Zhidong Yuan, and Deliang Liang, “Novel Multiple Magnetic Source Axial Flux Modulation Machines for Aviation Propulsion Applications” IEEE Transactions on Magnetics, Vol. 60, No.12, Dec., pp:8205905, 2024.

[6]. Pengcheng Sun, Shaofeng Jia, Deliang Liang, and Ronghai Qu, “A Review on the Development of High-reliability Motor System for Safety-critical Applications - From Redundancy Design Prospective,” IEEE Trans on Transportation Electrification, Vol. 10, No.3, Sep., pp:7374-7388, 2024.

[7]. Shaofeng Jia, Peixiong Chen, Dongxu Yang, Shuai Feng, and Deliang Liang, “Field Orientation Control for A Dual Winding Dual Magnet Flux Modulated Machine With Torque Distribution Capability,” IEEE Trans. Ind. App., Vol. 60, No.1, Jan./Feb., pp:343-352, 2024.

[8]. Shaofeng Jia, Pengcheng Sun, Shuai Feng, Peixiong Chen, and Deliang Liang, “Analysis and Experiment of A Dual Stator/Rotor PM and Winding Flux Modulated PM Machine,” IEEE Trans. Ind. App., Vol. 59, No.2, Mar./Apr., pp:1659-1669,2023

[9]. Shaofeng Jia, Pengcheng Sun, Shuai Feng, Deliang Liang, and Xiaozhuang Dong, “Analysis and Validation of Dual Armature Winding Magnetless Machines with Multi-torque Component,” IEEE Trans. on Energy Conversion, Vol. 38, No.4, Dec., pp:2832-2842, 2023.

[10]. Shaofeng Jia, Yongtao Liang, Deliang Liang, Shuaijun Chu, and Yang Liang, “Design and Analysis of a Novel High-Speed Permanent Magnet Machine with Dual Semi-Cage Winding,” IEEE Trans. Ind. App., Vol. 59, No.2, Mar./Apr., pp:1603-1613,2023.

[11]. Shaofeng Jia; Peixiong Chen; Xiaozhuang Dong; Deliang Liang; Binke Li; Jinjun Liu, “Modeling and Current Control Strategy for Novel Two-Phase DC-Biased Vernier Reluctance Machine,” IEEE Trans. Ind. App., Vol. 59, No.1, Jan./Feb., pp:814-822, 2023.

[12]. Shaofeng Jia; Xiaozhuang Dong; Deliang Liang; Feng Shuai, “Control Strategy of Different Operation Modes for A Multiple Torque Component Single Air Gap Magnetless Machine,” IEEE Trans. Ind. App., Vol. 59, No.1, Jan./Feb., pp:726-735, 2023.

[13]. Shaofeng Jia, K. Yan, D. Liang, R. Qu, J. Liu, and J. He, “A Novel DC-Biased Current Dual PM Vernier Machine,” IEEE Trans. Ind. App., Vol. 57, No.5, Sep./Oct., pp:4595-4605, 2021.

[14]. Shaofeng Jia, P. Sun, D. Liang, et al, “Analysis of DC-Biased Vernier Reluctance Machines Having Distributed Windings,” IEEE Transactions on Magnetics, Vol. 57, no 7, pp:8106605, 2021.

[15]. Shaofeng Jia, Y. Liang, Deliang Liang, et al, “A Novel DC-Biased Phase Current-Independent Drive High-Speed Vernier Reluctance Machine,” IEEE Transactions on Magnetics, Vol. 57, no 6, 2021.

[16]. Shaofeng Jia, Kuankuan Yan, Deliang Liang, “Two-Phase DC-Biased Vernier Reluctance Machines,” IEEE Transactions on Magnetics, Vol. 57, No.2, Feb., 2021.

[17]. Shaofeng Jia, R. Qu, W. Kong, D. Li, J. Li, and R. Zhang, “Stator/rotor slot and winding pole pair combinations of dc-biased current vernier reluctance machines,” IEEE Trans. Ind. App., Vol. 54, No.6, Nov./Dec., pp:5967-5977, 2018.

[18]. Shaofeng Jia, D. Liang, W. Kong, R. Qu, Z. Yu, D. Li, and P. Kou, “A high torque density concentrated winding vernier reluctance machine with DC-biased current,” IEEE Transactions on Magnetics, Vol. 54, No.11, Nov., pp:8205205, 2018.

[19]. Shaofeng Jia, R. Qu, J. Li, and D. Li, “Flux modulation principles of DC-biased sinusoidal current vernier reluctance machines,” IEEE Trans. Ind. App., Vol. 54, No.2, Jul./Aug., pp:3187-3196, 2018.

[20]. Shaofeng Jia, R. Qu, W. Kong, D. Li, J. Li, Z. Yu, and H Fang, “Hybrid excitation stator PM vernier machines with novel DC-biased sinusoidal armature current,” IEEE Transactions on Industry Applications. Vol. 54, No.2, Mach/April, pp:1339-1348, 2018.

[21]. Shaofeng Jia, R. Qu, J. Li, and D. Li, “Principles of stator DC winding excited vernier reluctance machines,” IEEE Transactions on Energy Conversion. Vol.31, No.3, Sep., pp:935-946, 2016.

[22]. Shaofeng Jia, R. Qu, J. Li, D. Li, and H. Fang, “A novel vernier reluctance fully superconducting direct drive synchronous generator with concentrated windings for wind power application,” IEEE Transactions on Applied Superconducting.Vol.26, No.7, Oct., pp:5207205, 2016.

[23]. Shaofeng Jia, R. Qu, J. Li, X. Gang, and M. Zhang, “Study of direct-drive permanent magnet synchronous generators with solid rotor back-iron and different windings,” IEEE Transactions on Industry Applications. Vol.52, No.2, Mach/April, pp:1369-1379, 2015.

[24]. Shaofeng Jia, R. Qu, and J. Li, “Analysis of the power factor of stator DC-excited vernier reluctance machines,” IEEE Transactions on Magnetics. Vol.51, No.11, Nov, pp: 8207704. 2015.

[25]. Shaofeng Jia, R. Qu, J. Li, D. Li, and H. Lu, “Design considerations of stator DC-winding excited vernier reluctance machines based on the magnetic gear effect,” IEEE Transactions on Industry Applications, Vol. 53, No. 2, pp: 1028-1037, 2017.

[26]. Shaofeng Jia, R. Qu, J. Li, D. Li, and H. Lu, “Comparison of stator DC current excited vernier reluctance machines with different field winding configurations,” IEEE Transactions on Magnetics. Vol. 53, No. 6, pp: 8103504, 2017.

[27]. Shaofeng Jia, R. Qu, D. Li, J. Li, and W. Kong, “Improved torque capacity for flux modulated machines by injecting DC currents into the armature windings,” IEEE Transactions on Magnetics. Vol. 53, No. 6, pp: 8102205, 2017.

[28]. Shaofeng Jia, R. Qu, J. Li, D. Li, and W. Kong, “A stator-PM consequent-pole vernier machine with hybrid excitation and DC-biased sinusoidal current,” IEEE Transactions on Magnetics. Vol. 53, No. 6, pp: 8105404, 2017.

[29]. J. Ma, R. Qu, J. Li, and Shaofeng Jia, “Structural optimization of a permanent-magnet direct-drive generator considering eccentric electromagnetic force,” IEEE Transactions on Magnetics. Vol.51, No.3, Mar. 2015.

[30]. N. Duan, W. Xu, S. Wang, J. Zhu, R. Qu, and Shaofeng Jia “A temperature-dependent hysteresis model for soft ferrites,” IEEE Transactions on Magnetics. Vol. 53, No. 6, pp: 2001304, 2017.

EI论文：

1. 王巧媛;贾少锋;梁得亮;毕建刚;徐征宇;王秀丽;王锡凡.柔性输电用低频变压器电磁分析与多目标优化设计[J/OL].电力自动化设备，2024.

2. 孙鹏程,贾少锋,梁得亮,等.冗余电机拓扑与应用综述及发展展望[J/OL].电工技术学报,1-17[2025-01-06].https://doi.org/10.19595/j.cnki.1000-6753.tces.240448.

3. 杨东旭,贾少锋,梁得亮,冯帅.永磁无刷轮毂电机轮对系统同步工况下的协调控制策略[J].中国电机工程学报, 2024, 44(6):2418-2427.DOI:10.13334/j.0258-8013.pcsee.222892.

4. 王巧媛,贾少锋,梁得亮, 赵义焜，毕建刚，杨智.基于多物理场仿真的低频变压器温度特性分析及导向结构优化[J].高电压技术,2024,50(05):2009-2019.DOI:10.13336/j.1003-6520.hve.20230880.

5. 于子翔, 曲荣海, 赵吉文, 孔武斌, 李子旻, 贾少锋等. (2023). 直流偏置型游标磁阻电机控制策略研究综述. 中国电机工程学报(S1), 229-241.

6. 袁志东,贾少锋,梁得亮.实心转子铁心式永磁游标电机涡流损耗抑制研究[J].西安交通大学学报, 2023, 57(10):173-182.

7. 梁得亮,褚帅君,贾少锋, 郁亚南，梁阳.高温高速永磁电机关键技术研究综述[J].西安交通大学学报,2022,56(10):31-48.

8. 梁泳涛, 贾少锋, 梁得亮. (2021). 外转子交替极伺服永磁电机低转矩脉动设计与综合优化. 导航与控制, 20(5), 10.

9. 罗雅婷, 梁得亮, 贾少锋, 尚琰哲, 王浩. (2021). 基于双电机转速同步的混合储能母线电压稳定控制. 电气技术, 22(6), 6.

10. 贾少锋, 刘紫薇, 梁得亮. (2021). 多相电机容错控制策略综述. 西安交通大学学报, 55(6), 9.

11. S. Jia, K. Yan, D. Liang, and J. Liu, "Research on the Reactive Power Regulation Capability of Stator DC Current Excited Vernier Reluctance Machine," in 2019 22nd International Conference on Electrical Machines and Systems (ICEMS), 2019. (EI)

12. S. Jia, K. Yan, D. Liang, R. Qu, J. Liu, and J. He, "A Novel DC-Biased Current Dual PM Vernier Machine," in 2019 IEEE International Electric Machines & Drives Conference (IEMDC), 12-15 May 2019, pp. 2014-2020, doi: 10.1109/IEMDC.2019.8785354. (EI)

13. S. Jia, X. Dong, D. Liang, and S. Feng, "Analysis of Operation Modes and Control for a Multiple Torque Component Single Air Gap Magnetless Machine," in 2020 International Conference on Electrical Machines (ICEM), 2020. (EI)

14. S. Jia, S. Feng, D. Liang, and J. Liu, "A Dual Stator/Rotor PM and Winding Flux Modulated PM Machine," in 2020 IEEE Energy Conversion Congress and Exposition (ECCE), 2020. (EI)

15. S. Jia, B. Li, X. Dong, D. Liang, and J. Liu, "Power Converter Topology and Control Strategy for Novel Two-Phase DC-Biased Vernier Reluctance Machine," in 2020 IEEE Energy Conversion Congress and Exposition (ECCE), 2020. (EI)

16. S. Jia, D. Liang, and Z. Zhu, "Enhanced Flux Modulation of FSCW Consequent Pole PM Machine Employing Stator Slot Halbach PM," in 2020 International Conference on Electrical Machines (ICEM), 2020. (EI)

17. S. Jia, P. Chen, S. Feng, and D. Liang, "Simulation of Field Orientation Control for A Dual Stator/Rotor PM and Winding Flux Modulated PM Machine," in 2021 IEEE International Electric Machines & Drives Conference (IEMDC), 17-20 May 2021, pp. 1-6, doi: 10.1109/IEMDC47953.2021.9449517. (EI)

18. S. Jia, X. Dong, D. Liang, and S. Feng, "A Novel MTPA Control Strategy for Multiple Torque Component Single Air Gap Magnetless Machines," in 2021 IEEE Energy Conversion Congress and Exposition (ECCE), 10-14 Oct. 2021, pp. 4295-4299, doi: 10.1109/ECCE47101.2021.9595297. (EI)