赵清源
电子工程系 博导
赵清源电子工程系 博导 |
个人简历
2017~至今,港澳宝典资料大全港澳宝典资料大全,教授,自然基金委杰出青年基金获得者, 国家级青年人才,江苏省“双创人才”,江苏省“双创团队”成员,江苏省“六大人才高峰”高层次人才A类资助,港澳宝典资料大全登峰人才计划支持B。 研究方向
研究方向为高性能超导探测器、成像器、数字电路的研制,以及基于这些高性能量子器件的应用扩展,例如,基于计算摄像算法和超导纳米线成像器件的超导单光子相机,基于高速超导单光子探测器的光通信系统研制,低温数字电路,超导纳米线结构在超导量子计算机中的应用等。在Nature Photonics,Nature Nanotechnology, Nano Letters等期刊共发表论文30余篇。2017年获超导电子学专业期刊SUST颁发的The Jan Evetts SUST Award。担任本领域诸多期刊的审稿专家和编委,多次获邀在重要国际会议作学术报告、担任会议论文编辑和会场主持职务,合作编撰英文图书一本。 主要课程
本科生 电路分析翻转课堂 (首批国家一流课程、港澳宝典资料大全百层次课程) 研究生 超导电子学 代表成果
1. L. Kong, H. Wang, Q. Zhao, J. Guo, Y. Huang, H. Hao, S. Chen, X. Tu, L. Zhang, X. Jia, L. Kang, J. Chen, and P.-H. Wu, Readout-efficient superconducting nanowire single-photon imager with orthogonal time–amplitude multiplexing by hotspot quantization, Nat. Photonics 17(1), 65–72 (2023). 2. H. Wang, Z. Li, X.-M. Hu, H. Hao, J. Guo, Y. Huang, H. Liu, C. Wan, X. Tu, X. Jia, L. Zhang, J. Chen, L. Kang, T. Yue, Q. Zhao, and P. Wu, Image distortion by ambiguous multiple-photon detections in a superconducting nanowire single-photon imager and the correction method, Opt. Express 31(14), 23579 (2023). 3. Y.-H. Huang, Q.-Y. Zhao, S. Chen, H. Hao, H. Wang, J.-W. Guo, X.-C. Tu, L.-B. Zhang, X.-Q. Jia, J. Chen, L. Kang, and P.-H. Wu, Splitter trees of superconducting nanowire cryotrons for large fan-out, Appl. Phys. Lett. 122(9), 092601 (2023). 4. S. Chen, Q. Zhao, K. Zheng, X. Tao, J. Guo, Z. Liu, H. Wang, L. Kong, H. Hao, Y.-H. Huang, T. Xu, X.-C. Tu, L.-B. Zhang, X.-Q. Jia, J. Chen, L. Kang, and P.-H. Wu, Stacking two superconducting nanowire single-photon detectors via membrane microchip transfer, Appl. Phys. Lett. 121(11), 112601 (2022). 5. L. Kong, Q. Zhao, H. Wang, Y. Huang, S. Chen, H. Hao, J. Guo, X. Tu, L. Zhang, X. Jia, L. Kang, J. Chen, and P. Wu, Probabilistic Energy-to-Amplitude Mapping in a Tapered Superconducting Nanowire Single-Photon Detector, Nano Lett. 22(4), 1587–1594 (2022). 6. H. Wang, Q.-Y. Zhao, L.-D. Kong, S. Chen, Y.-H. Huang, H. Hao, J.-W. Guo, D.-F. Pan, X.-C. Tu, L.-B. Zhang, X.-Q. Jia, J. Chen, L. Kang, and P.-H. Wu, 64-Pixel Mo 80 Si 20 superconducting nanowire single-photon imager with a saturated internal quantum efficiency at 1.5 µm, Opt. Lett. 47(14), 3523 (2022). 7. L. Kong, Q. Zhao, H. Wang, J. Guo, H. Lu, H. Hao, S. Guo, X. Tu, L. Zhang, X. Jia, L. Kang, X. Wu, J. Chen, and P. Wu, Single-Detector Spectrometer Using a Superconducting Nanowire, Nano Lett. 21(22), 9625–9632 (2021). 8. H. Hao, Q.-Y. Zhao, L.-D. Kong, S. Chen, H. Wang, Y.-H. Huang, J.-W. Guo, C. Wan, H. Liu, X.-C. Tu, L.-B. Zhang, X.-Q. Jia, J. Chen, L. Kang, C. Li, T. Chen, G.-X. Cao, and P.-H. Wu, Improved pulse discrimination for a superconducting series nanowire detector by applying a digital matched filter, Appl. Phys. Lett. 119(23), 232601 (2021). 9. K. Zheng, Q.-Y. Zhao, H.-Y.-B. Lu, L.-D. Kong, S. Chen, H. Hao, H. Wang, D.-F. Pan, X.-C. Tu, L.-B. Zhang, X.-Q. Jia, J. Chen, L. Kang, and P.-H. Wu, A Superconducting Binary Encoder with Multigate Nanowire Cryotrons, Nano Lett. 20(5), 3553–3559 (2020). 10. L. Kong, Q. Zhao, K. Zheng, H. Lu, S. Chen, X. Tao, H. Wang, H. Hao, C. Wan, X. Tu, L. Zhang, X. Jia, L. Kang, J. Chen, and P. Wu, Noise-tolerant single-photon imaging with a superconducting nanowire camera, Opt. Lett. 45(24), 6732 (2020). |
联系方式
|
|