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个人信息

姓名:吴天涯

国籍:中国

毕业院校:巴塞罗那自治大学

导师类型:硕士生导师

岗位类别:特聘研究员

电子邮件:tianya.wu@ncu.edu.cn

办公地址:机电楼E304

个人信息

吴天涯,南昌大学特聘研究员,博士研究生学历,主要从事硅像素探测器芯片设计,核电子学与核探测技术、集成电路相关领域的研究。2015年入选首届华中师范大学拔尖人才创新培养计划,硕博连读期间获得特别研究资助,师从中国核学会理事,核电子学资深专家黄光明教授;曾获得“2018 年国家建设高水平大学公派研究生项目”专项资助,前往西班牙高能物理研究所(IFAE)联合培养,师从加泰罗尼亚高等研究院(ICREA)院士、欧洲核子中心ATLAS实验硅探测器负责人Sebastian Grinstein;第二导师为巴塞罗那自治大学微电子学与电路系统学院,Raimon Casanova Mohr 副教授。2022年荣获巴塞罗那自治大学“CUM LAUDE”优秀毕业生,2023年获得中国科学院大学优秀本科课程助教荣誉称号。

2018年至2024年,主持国家自然科学基金青年项目1项、主持科技部核探测与核电子学国家重点实验室创新课题2项,参与中国未来大科学工程环形正负电子对撞机(CEPC)顶点像素探测器芯片研发,已经完成三版芯片技术原型(TaichuPix 1/2/3)的设计与流片,主要承担数字像素前端的设计与芯片束流测试。(科技部项目编号2018YFA0404300,经费预算3145万)

近五年,发表论文18项,其中SCI论文14项,EI论文4项,一作/共一5项,通讯2项,曾在香港科技大学IAS HEP2023、牛津大学PSD13、 ICECS2019, TWEPP2023、加拿大HSTD13等重要国际学术研讨会上汇报最新研究进展。

硕士研究生招生专业:

081000 信息与通信工程;085401新一代电子信息技术;085402通信工程;085403集成电路工程;085409生物医学工程;085410人工智能


教育经历

[1] 2018.04-2022.04 巴塞罗那自治大学 物理学博士

[2] 2017.09-2021.12 华中师范大学 无线电物理博士

[3] 2015.07-2017.06 华中师范大学 电路与系统硕士

[4] 2011.09-2015.06 华中师范大学 通信工程学士

工作履历

[1] 2024年2月-至今 特聘研究员 南昌大学信息工程学院

[2] 2022年9月-2023年12月 本科课程助教 中国科学院大学

[3] 2022年1月-2024年2月 博士后 中国科学院高能物理研究所

科研项目

欧洲先进加速器探测器基础设施AIDA2020

高能环形正负电子对撞机关键技术验证

高分辨MAPS芯片的快速前端读出电路研究

高分辨率快响应 CMOS 单光子探测芯片研究

科研成果

ORCID号:https://orcid.org/0000-0001-7010-1884

[1] T. Wu, S. Li, W. Wang, J. Zhou, Z. Yan, Y. Hu, X. Zhang, Z. Liang, W. Wei, Y. Zhang, X. Wei, X. Huang, L. Zhang, M. Qi, H. Zeng, X. Jia, J. Hu, J. Fu, H. Zhang, G. Li, L. Wu, M. Dong, X. Li, R. Casanova, L. Zhang, J. Dong, J. Wang, R. Zheng, W. Lu, S. Grinstein, J. G. da Costa, Beam test of a 180 nm cmos pixel sensor for the cepc vertex detector, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 1059 (2024) 168945. doi:10.1016/j.nima.2023.168945.

[2] T. Wu, W. Wei, S. Grinstein, R. Casanova, Y. Zhang, X. Wei, J. Dong, L. Zhang, X. Li, Z. Liang, J. G. D. Costa, W. Lu, L. Li, J. Wang, R. Zheng, P. Yang, G. Huang, The taichupix1: A monolithic active pixel sensor with fast in-pixel readout electronics for the cepc vertex detector, Journal of Instrumentation 16 (2021). doi:10.1088/1748-0221/16/09/P09020.

[3] T. Wu, W. Lu, J. Dong, L. Li, W. Jia, R. Zheng, P. Yang, G. Huang, S. Grinstein, R. Casanova, W. Wei, X. Wei, Y. Zhang, L. Zhang, X. Li, Z. Liang, J. D. Costa, A full functional monolithic active pixel sensor prototype for the cepc vertex detector, 2019. doi:10.1109/ICECS46596.2019. 8965105.

[4] S. Li, T. Wu(共同一作), X. Huang, J. Zhou, Z. Yan, W. Wang, H. Zeng, X. Jia, Y. Hu, X. Zhang, Z. Liang, W. Wei, Y. Zhang, X. Wei, L. Zhang, M. Qi, J. Hu, J. Fu, H. Zhang, G. Li, L. Wu, M. Dong, X. Li, R. Casanova, L. Zhang, J. Dong, J. Wang, R. Zheng, W. Lu, S. Grinstein, J. G. da Costa, Beam test of a baseline vertex detector prototype for cepc, IEEE Transactions on Nuclear Science 71 (2024) 1319–1323. doi:10.1109/TNS.2024.3395022.

[5] W. Wang, T. Wu(共同一作), Z. Liang, Y. Zhang, W. Wei, X. Li, R. Casanova, X. Wei, L. Zhang, J. Dong, W. Lu, R. Zheng, M. Li, X. Yang, Y. Fan, S. Grinstein, J. G. da Costa, Characterization of a cmos pixel sensor prototype for the cepc vertex detector, Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 1056 (11 2023). doi:10.1016/j.nima.2023.168601.

[6] R. Casanova, T. Wu(共同通讯), A monitoring 12-bits fully differential second order incremental delta sigma converter adc for timepix4, Vol. 370, 2019.

[7] W. Chen, T. Wu, W. Tang, K. Jin, G. Huang, Implementation method of cordic algorithm to improve ddfs performance, 2020. doi:10.1109/ ICET49382.2020.9119621.

[8] K. Jin, W. Tang, W. Deng, Y. Huang, X. Ding, T. Wu, G. Yang, G. Huang, An improved frequency meter for atomic magnetometer based on accurate time measurement, IEICE Electronics Express 16 (2019). doi:10.1587/ elex.16.20190310.

[9] K. Jin, H. Hu, Z. Liang, X. Geng, T. Wu, J. Qu, W. Tang, M. Wang, G. Li, S. Liang, G. Yang, G. Huang, Design of non-magnetic temperature control system for atomic vapor cell of atomic magnetometer, Vol. 1812, 2021. doi:10.1088/1742-6596/1812/1/012021.

[10] M. Li, W. Sun, Z. Liang, M. Zhao, X. Zhang, Y. Feng, Y. Fan, T. Wu, W. Wang, X. Yang, B. Liu, S. Li, C. Yu, X. Huang, Y. Heng, G. Xu, The performance of large-pitch ac-lgad with different n+ dose, IEEE Transactions on Nuclear Science 70 (2023). doi:10.1109/TNS.2023.3289032.

[11] W. Sun, Y. Fan, M. Zhao, H. Cui, C. Yu, S. Li, Y. Feng, X. Huang, Z. Liang, X. Jia, W. Wang, T. Wu, M. Li, J. da Costa, G. Xu, Characterization of the response of ihep-ime lgad with shallow carbon to gamma irradiation, Journal of Instrumentation 18 (2023). doi:10.1088/1748-0221/18/06/ P06031.

[12] W. Sun, M. Li, Z. Liang, M. Zhao, X. Zhang, T. Zhang, Y. Feng, S. Li, X. Huang, Y. Fan, T. Wu, X. Yang, B. Liu, W. Wang, Y. Heng, G. Xu, J. G. da Costa, The performance of ac-coupled strip lgad developed by ihep, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 1062 (2024) 169203. doi:10.1016/j.nima.2024.169203.

[13] Z. Yan, J. Hu, T. Wu, J. Zhou, S. Li, X. Zhang, X. Huang, Y. Hu, W. Wang, Z. Liang, W. Wei, Y. Zhang, X. Wei, L. Zhang, M. Qi, H. Zeng, X. Jia, X. Zhou, J. G. da Costa, J. Fu, H. Zhang, G. Li, L. Wu, M. Dong, X. Li, R. Casanova, L. Zhang, J. Dong, J. Wang, R. Zheng, W. Lu, S. Grinstein, Readout electronics for the cepc vertex detector prototype and beam telescope, Journal of Instrumentation 18 (2023). doi:10.1088/1748-0221/18/07/P07036.

[14] Y. Zhang, W. Wei, X. Li, Z. Liang, T. Wu, R. Casanova, X. Wei, L. Zhang, J. Dong, J. Wang, W. Lu, R. Zheng, L. Li, S. Grinstein, J. G. da Costa, Development of a cmos pixel sensor prototype for the high hit rate cepc vertex detector, Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 1042 (2022). doi:10.1016/j.nima.2022.167442.

[15] X. Wei, W. Wei, T. Wu, Y. Zhang, X. Li, L. Zhang, W. Lu, Z. Liang, J. Dong, L. Li, J. Wang, R. Zheng, R. Casanova, S. Grinstein, Y. Hu, J. D. Costa, High data-rate readout logic design of a 512 × 1024 pixel array dedicated for cepc vertex detector, Journal of Instrumentation 14 (2019). doi:10.1088/1748-0221/14/12/C12012.

[16] X. Li, W. Wei, X. Yan, M. Li, J. Zhang, H. Liu, X. Jiang, T. Wu, P. Yang, A 5.12-gbps serializer circuit for front-end fast readout electronics of silicon pixelated detectors, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 1063 (2024) 169310. doi:10.1016/j.nima.2024.169310.

[17] X. Li, W. Wei, Y. Zhang, T. Wu, P. Yang, 4 gbps serializer circuits in a 180 nm technology for monolithic pixel sensor prototypes developed for the cepc vertex detector, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 1063 (2024) 169282. doi:10.1016/j.nima.2024.169282.