江俊杰

助理研究员,上海交通大学电气工程系

联系方式:jiangjunjie@sjtu.edu.cn

研究兴趣 教育背景 工作经历 学术发表 项目资助 获奖信息 公益服务
1.高温超导监测技术;2.电气设备状态监测技术;3.先进光学检测技术

2020.8 毕业于上海交通大学,博士

2015.7 毕业于上海大学,硕士

2012.7 毕业于上海大学,学士

2020.11~今 上海交通大学电子信息与电气工程学院

[1] J Jiang, H Wang, Y Jia, J Sheng, Y Wang, Z Li, Y Zhao, Z Hong, K Ryu and Z Jin. Fabrication technology and performance tests for optical fiber-encapsulated, high-temperature superconducting tapes[J]. Superconductor Science and Technology, 2022.

[2] J Jiang, Z Jin, Z Li, Z Hong, M Song and X Duan. Quench recovery time of an optical fiber encapsulated resistance-type DC superconducting fault current limiter coil determined by a Raman-based distributed temperature sensing system[J].Superconductor Science and Technology, 2021.

[3] Z Li, Y Lv, M Yin, C Liu, J Li, K Liang, J Jiang, K. Ryu, Z Hong and Z Jin. "Temperature Distribution Observation of No-Insulation HTS Coils Wound by Optical-fiber-encapsulated Tapes," in IEEE Transactions on Applied Superconductivity, vol. 31, no. 5, pp. 1-4, Aug. 2021.

[4] J Jiang, Z Wu, J Sheng, J Zhang, M Song, K Ryu, Z Li, Z Hong and Z Jin. "A New Approach to Measure Magnetic Field of High-Temperature Superconducting Coil Based on Magneto-Optical Faraday Effect," in IEEE Transactions on Applied Superconductivity, vol. 31, no. 1, pp. 1-5, Jan. 2021.

[5] W Li, H Ye, J Sheng, J Jiang, B Shen, Z Li, Z Hong and Z Jin. "Performance Evaluation of Conductor on Round Core Cables Used in High Capacity Superconducting Transformers," in IEEE Transactions on Applied Superconductivity, vol. 30, no. 4, pp. 1-5, June 2020.

[6] X Xu, Z Huang, X Huang, L Hao, J Zhu, B Shen, W Li, J Jiang, M Wang and Z Jin. "Numerical Study on AC Loss of an HTS Coil Placed on Laminated Silicon Steel Sheets With Distorted AC Transport Currents," in IEEE Transactions on Applied Superconductivity, vol. 30, no.4, pp. 1-5, June 2020.

[7] M Wang, Z Li, J Jiang, F Dong, X Xu, Z Jin and K Ryu. "Performance Study on the No-Insulation HTS Coil Wound With Narrow-Stacked Wire," in IEEE Transactions on Applied Superconductivity,vol. 30, no. 4, pp. 1-5, June 2020.

[8] Y Lv, J Jiang, L Yao, K Ryu, Z Li,Z Hong and Z Jin. "Experimental Results of Various Optical Fibers Encapsulated HTS Tapes Under Impulse Currents for the SFCL Application," in IEEE Transactions on Applied Superconductivity, vol. 30, no. 4, pp. 1-5,June 2020.

[9] Y Chen, X -F Li, D Chen, Z Jin and J Jiang. "A Critical Current Measurement Method for Strip Hard Superconductors Utilizing Pulsed Current," in IEEE Transactions on Applied Superconductivity, vol.30, no. 4, pp. 1-5, June 2020.

[10] J Jiang, J Sheng, Q Wu, Z Li, L Zhong, M Song, Z Hong and Z Jin."Spatial and Temporal Resolution Optimization on Raman Distributed Temperature Sensor System for Quench Detection in a No-Insulated Coil," in IEEE Transactions on Applied Superconductivity, vol. 29, no. 5, pp. 1-5, Aug.2019.

[11] J Sheng, Y Pan, J Jiang, W Li, B Shen, Z Zhang and W Wu. "A New Concept of a Hybrid Trapped Field Magnet," in IEEE Transactions on Applied Superconductivity, vol. 29, no. 5, pp. 1-5, Aug.2019.

[12] M Wang, Z Li, L Zhong, X Duan, M Song, J Jiang, J Chu, Z Hong and Z Jin. "Reduction of Screening Current-Induced Field in a REBCO Coil Wound by Solder-Square-Stacked Wire," in IEEE Transactions on Applied Superconductivity, vol. 29, no. 5, pp. 1-5, Aug. 2019.

[13] D Xi, C Guo, J Jiang, W Li, Z Li, Z Jin, L Zhong, X Duan, M Song and L Li. "Effects of Mechanical Force on Critical Current of Soldered-Stacked-Square (3S) HTS Wires," in IEEE Transactions on Applied Superconductivity, vol. 29, no. 2, pp. 1-4, March 2019.

[14] J Jiang, Z Wu, B Liu, J Sheng, L Wang, Z Li, Z Jin and Z Hong."Thermal Stability Study of a Solder-Impregnated No-Insulation HTS Coil Via a Raman-Based Distributed Optical Fiber Sensor System," in IEEE Transactions on Applied Superconductivity, vol. 29, no. 2, pp. 1-4, March 2019.

[15] J Jiang, L Zhong, X Duan, M Song, L Li, Z Wu, Z Li, Z Huang, Z Hong,Z Jin and L Yao. "Bend Limitation of a Polyimide-Coated Optical Fiber at Cryogenic Temperature of 77 K," in IEEE Transactions on Applied Superconductivity, vol. 29, no. 2, pp. 1-5, March 2019.

[16] J Jiang, Y Zhao, Z Hong, J Zhang, Z Li, D Hu, D Qiu, A Zhao, K Ryu and Z Jin. "Experimental Study on Quench Detection of a No-Insulation HTS Coil Based on Raman-Scattering Technology in Optical Fiber," in IEEE Transactions on Applied Superconductivity, vol. 28, no. 3, pp. 1-5, April 2018.

[17] D Qiu, J Zhang, B Wei, H Huang, F Gu, Z Li, Z Huang, W Wu, D Hu, J Jiang, Z Hong and Z Jin. "Feasibility Study of Closed-Loop No-Insulation Coil to Shield Alternating Magnetic Field," in IEEE Transactions on Applied Superconductivity, vol. 27, no. 6, pp. 1-5, Sept. 2017.

[18] J Jiang, G Song, D Wang, Z Jin, Z Tian, X Lin, J Han, G Ma, S Cao and Z Cheng. Magnetic-field dependence of strongly anisotropic spin reorientation transition in NdFeO3: a terahertz study[J]. Journal of Physics:Condensed Matter, 2016.

[19]G Song, J Jiang, B Kang, J Zhang, Z Cheng, G Ma and S Cao. Spin reorientation transition process in single crystal NdFeO3[J]. Solid State Communications, 2015.

[20] X Lin, J Jiang, Z Jin, D Wang, Z Tian, J Han, Z Cheng and G Ma. Terahertz probes of magnetic field induced spin reorientation in YFeO3 single crystal[J]. Applied Physics Letters, 2015.

[21] X Lin, J Jiang, Z Jin and G Ma."Magnetic field induced spin reorientation transition in YFeO3 probed with THz spectroscopy," 2015 40th International Conference on Infrared, Millimeter, and Terahertz waves (IRMMW-THz), Hong Kong, China, 2015.

[22] Jiang J and Ma G. THz transient non-perturbative detection of spin reorientation transition in NdFeO 3 single crystal[C]//2015 Conference on Lasers and Electro-Optics (CLEO). IEEE, 2015.

[23] G Song, Z Jin, X Lin, J Jiang, X Wang, H Wu, G Ma and S Cao. The polarization trajectory of terahertz magnetic dipole radiation in (110)-oriented PrFeO3 single crystal. Journal of Applied Physics 28 April 2014.

[24] J Jiang, Z Jin, G Ma, S Cao, Z Tian, J Han and W Zhang. "Magnetic field induced spin reorientation transition in NdFeO3 investigated with THz time-domain spectroscopy," 2014 39th International Conference on Infrared, Millimeter, and Terahertz waves (IRMMW-THz), Tucson, AZ, USA, 2014.

[25] G Song, J Jiang, X Wang, Z Jin, X Lin, G Ma and S Cao. Selective excitation of spin resonance in orthoferrite PrFeO3 with impulsive polarized terahertz radiation. Journal of Applied Physics 28 December 2013.

[26] J Jiang, Z Jin, G Song, X Lin, G Ma and S Cao. Dynamical spin reorientation transition in NdFeO3 single crystal observed with polarized terahertz time domain spectroscopy. Appl. Phys. Lett. 5 August 2013.

[27] J Jiang, Z Jin, G Song, X Lin, G Ma and S Cao. "Dynamical spin reorientation transition in orthoferrite NdFeO3 studied with terahertz time-domain spectroscopy," 2013 38th International Conference on Infrared,Millimeter, and Terahertz Waves (IRMMW-THz), Mainz, Germany, 2013.

发明专利:

1. 江俊杰;金之俭;李柱永;洪智勇;王龙彪;超导带材封装用集束组件及其内封光纤高温超导带材制备装置,2022-06-28,中国,CN202110056971.8 (发明专利)

2. 江俊杰;李柱永;盛杰;一种内嵌光纤超导带材及其制备方法,2020-7-14,中国,ZL201910344526.4      (发明专利)

3. 江俊杰;武泽明;李柱永;基于光纤磁场传感技术的高温超导线圈磁场测量方法,2020-2-21,中国, ZL201811126066.X(发明专利)

4. 江俊杰;李柱永;王明阳;一种内封光纤超导带材光纤出线保护装置及方法, 2019-4-16,中国,ZL201910305244.3(发明专利)

5. 贾雅君;江俊杰;赵乐;席东明;金之俭;一种少油设备状态监测系统及其连通结构,2023-3-10,ZL 2022 10435448.0(发明专利)

6. 盛杰;江俊杰;李柱永;洪智勇;金之俭;瞿体明;宋萌;;段新辉;调节超导眼型结构永磁体磁偏角的方法、系统及介质,2020-8-4,中国,ZL201910425632.5(发明专利)

7. 顾菲;江俊杰;姚林朋;洪智勇;金之俭;盛杰;王龙彪;李柱永;宋萌;高温超导堆叠线扭绞装置及其工作方法,2020-7-14,中国,ZL201910339678.5(发明专利)

8. 李柱永;江俊杰;瞿体明;宋萌;段新辉;洪智勇;盛杰;金之俭;适用于分离超导带材内测量光纤的装置及方法,2020-6-12,中国,ZL201910310125.7(发明专利)

9. 顾菲;江俊杰;姚林朋;洪智勇;金之俭;盛杰;王龙彪;李柱永;宋萌 ;内封光纤超导带材收纳卷盘及其工作方法,2019-4-25,中国,ZL201910339668.1(发明专利)

10.王明阳;李柱永;江俊杰;王龙彪;针对内嵌光纤高温超导带材的收纳设备和收纳方法,2020-3-6,中国,ZL201910289345.6(发明专利)

11.王恒;江俊杰;贾雅君;金之俭;适用于内封光纤的高温超导集束缆线制作的装置,2022-06-22,ZL 202221576128.9(实用新型)

12.沈畅;江俊杰;贾雅君;金之俭;一种用于少油设备在线监测的无源油循环装置,2022-10-24,ZL 20222795954.9(实用新型)


1.      上海市青年英才扬帆计划:面向紧凑型托卡马克装置的内封光纤高温超导CORC缆线失超特性研究;

2.      企业横向:基于微机电系统气敏传感技术的少油设备异常状态监测及应用

3.      企业横向:基于声纹识别的变电站设备异常定位算法研究

1.      2021年入选上海青年英才扬帆计划

2.      2022年获南方电网公司科技进步一等奖

3.      2022年获广东电网公司科技进步一等奖

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