● 2017.12-今 清华大学，工程物理系 长聘副教授

● 2014.12-2017.12 清华大学，工程物理系 副教授/准聘副教授

● 2011.06-2014.12 清华大学，工程物理系 讲师

● 2009.09-2009.12 瑞士EPFL洛桑联邦理工学院 访问学者

● 2008.07-2011.06 清华大学 物理学博士后

本科生课程：

● 主讲 国家精品在线开放课程《ARM微控制与嵌入式系统》

● 主讲 清华大学精品课《数字电路与嵌入式系统》（20210074）本科30人/64学时

● 合讲 《应用软件设计与实践3》（30320382） 本科30人/64学时

研究生指导：

● 指导（协助指导）已毕业博士生4人、硕士生2人，在读博士生5人。

教学改革：

2017年与冯骅教授、学生温家星共同发起了“天格计划”，这是一个以学生为主体的、面向基础科学前沿的真正科学任务，同时也是一个理工学科交叉的基础科学人才培养项目；其科学目标是研制立方星科学载荷开展空间伽马射线暴探测，寻找与引力波、快速射电暴成协的事例。

指导的跨学科本科生团队获得2017年清华大学挑战杯特等奖、2021年首都挑战杯一等奖；学生为主体自主研制GRID-01、GRID-02等纳卫星科学载荷，2018年、2020年先后成功发射入轨并实现稳定科学观测，成功发现首批十余个伽马射线暴事例；团队本科生先后在香山会议、中国天文学年会、国际空间科学大会（COSPAR）上多次进行口头报告。

目前，该项目已有国内北京大学、南京大学、北京师范大学、四川大学、高能所、国家天文台等十余家高校和研究所教师和学生参与，组成了跨学科的联合导师团。未来“天格计划”将继续以立方星组网探测此类伽马暴事件的一个小样本为科学目标，同时继续探索基础科学拔尖人才的培养。

主要从事核电子学与粒子探测器学科的研究工作，主要研究领域是核电子学与高空间分辨粒子径迹探测，在高能物理实验中是实现带电粒子高精度动量测量和粒子甄别的关键技术，在天文X射线偏振探测、0υββ衰变探测前沿基础实验中亦是关键难点，包括：

研究领域1：针对高能物理的高空间分辨率带电粒子径迹探测

● LHCb实验合作组的径迹探测器电子学研究

● 基于位置分辨MRPC径迹探测器的宇宙线缪子成像应用研究

研究领域2：针对极低本底物理与空间天体物理的粒子三维电离径迹测量

● 针对天体物理实验的电离径迹重建与X射线偏振探测方法研究

● 针对极低本底物理实验的电离径迹探测与粒子甄别方法研究

● 针对新型闪烁体材料中电离径迹与粒子波形差异物理机制的研究

研究领域3：基于微纳卫星科学载荷的空间X射线和伽马探测

● “天格计划”基于纳卫星的空间伽马射线暴探测网

● “极光计划”基于纳卫星的空间X射线偏振探测器

承担和参加国家自然科学基金、国家重点研发计划等项目，主要研究课题有：

● LHCb升级中径迹探测器和数据获取系统的研究，国家自然科学基金，负责人；

● 室温半导体CdZnTe探测器低本底实验关键技术问题研究，国家自然科学基金，负责人；

● 空间伽马射线探测立方星原型研制，清华大学自主科研项目，负责人；

● 半导体探测器的三维径迹重建与拓扑甄别方法研究，清华大学自主科研项目，负责人；

● 极低辐射本底多电极高纯锗探测技术研究，国家自然科学基金联合项目，参加；

● 电离和光辐射极端量计量关键技术研究，国家重点研发计划（子课题），参加；

● 宇宙线缪子成像关键物理与技术问题研究，国家自然科学基金重点项目，参加；

● 低系统误差、高灵敏度、符合空间要求的X射线偏振仪研究，国家自然科学基金重点项目，参加；

● LAMP天文小卫星关键技术研究，清华大学自主科研项目，参加。

发表文章（Selected）：

[1] J. Cang, X. Fang, Z. Zeng, M. Zeng*, Y. Liu, Z. Sun, and Z. Chen, Ionization-Density-Dependent Scintillation Pulse Shape and Mechanism of Luminescence Quenching in LaBr3:Ce, Phys. Rev. Applied 14, 064075 (2020).

[2] H. Feng, H. Li, X. Long, R. Bellazzini, E. Costa, Q. Wu, J. Huang, W. Jiang, M. Minuti, W. Wang, R. Xu, D. Yang, L. Baldini, S. Citraro, H. Nasimi, P. Soffitta, F. Muleri, A. Jung, J. Yu, G. Jin, M. Zeng, P. An, A. Brez, L. Latronico, C. Sgro, G. Spandre, and M. Pinchera, Re-Detection and a Possible Time Variation of Soft X-Ray Polarization from the Crab, Nature Astronomy 4, 511 (2020).

[3] W. Zeng, M. Zeng, X. Pan, Z. Zeng, H. Ma, and J. Cheng, Principle Study of Image Reconstruction Algorithms in Muon Tomography, Journal of Instrumentation 15, (2020).

[4] Y. Li, X. Yue, M. Zeng, J. Cang, Z. Li, Y. Wang, and Y. Yu, Design of an Optimised Preamplifier for the MRPC Detector, Journal of Instrumentation 15, (2020).

[5] W.-H. Zeng, H. Ma, M. Zeng, Z. Zeng, Q. Yue, J.-P. Cheng, and J.-L. Li, Evaluation of Cosmogenic Activation of Copper and Germanium during Production in Jinping Underground Laboratory, Nuclear Science and Techniques 31, (2020).

[6] J. Wen, X. Long, X. Zheng, Y. An, et al., H. Feng*, M. Zeng*, GRID: a student project to monitor the transient gamma-ray sky in the multi-messenger astronomy era, Experimental Astronomy 48 (2019) 77.

[7] H. Feng, W. Jiang, M. Minuti, Q. Wu, A. Jung, D. Yang, S. Citraro, H. Nasimi, J. Yu, G Jin, J. Huang, M. Zeng, et al., PolarLight: a CubeSat X-ray polarimeter based on the gas pixel detector, EXPERIMENTAL ASTRONOMY 47 (2019) 225.

[8] R. Liu, M. Zeng, Y. Tian, Y. Yang, X. Wang, Application of the dynamic time over threshold method for semi-Gaussian signals, JOURNAL OF INSTRUMENTATION 13 (2018).

[9] J. Cang, T. Xue, M. Zeng*, Z. Zeng, H. Ma, J. Cheng, Y. Liu, Optimal design of waveform digitisers for both energy resolution and pulse shape discrimination, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 888 (2018) 96.

[10] T. Li, M. Zeng*, H. Feng, J. Cang, H. Li, H. Zhang, Z. Zeng, J. Cheng, H. Ma, Y. Liu, Electron track reconstruction and improved modulation for photoelectric X-ray polarimetry, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 858 (2017) 62.

[11] M. Zeng, T. Li, J. Cang, Z. Zeng, J. Fu, W. Zeng, J. Cheng, H. Ma, Y. Liu, 3-D topological signatures and a new discrimination method for single-electron events and 0νββ events in CdZnTe: A Monte Carlo simulation study, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 858 (2017) 44.

[12] Z. Zeng, X. Pan, H. Ma, J. He, J. Cang, M. Zeng*, Y. Mi, J. Cheng, Optimization of an underwater in-situ LaBr3:Ce spectrometer with energy self-calibration and efficiency calibration, Applied Radiation and Isotopes 121 (2017) 101.

[13] Z. Zeng, Y. Mi, M. Zeng, H. Ma, Q. Yue, J. Cheng, J. Li, R. Qiu, H. Zhang, Characterization of a broad-energy germanium detector for its use in CJPL, Nuclear Science and Techniques 28 (2017) 7.

[14] X. Yue, M. Zeng*, Z. Zeng, Y. Wang, X. Wang, Z. Zhao, J. Cheng, K. Kang, Mathematical modelling and study of the encoding readout scheme for position sensitive detectors, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 816 (2016) 33.

[15] M. Zeng, J. Cang, Z. Zeng*, X. Yue, J. Cheng, Y. Liu, H. Ma, J. Li, Quantitative analysis and efficiency study of PSD methods for a LaBr3:Ce detector, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 813 (2016) 56.

[16] Q. Hu, H. Ma, J. He, Z. Zeng*, M. Zeng, T. Li, Y. Li, H. Yi, J. Cheng, J. Li, Design of cosmic veto shielding for HPGe-detector spectrometer, Applied Radiation and Isotopes (2016).

[17] X. Wang, M. Zeng*, Z. Zeng, Y. Wang, Z. Zhao, X. Yue, Z. Luo, H. Yi, B. Yu, J. Cheng, The cosmic ray muon tomography facility based on large scale MRPC detectors, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 784 (2015) 390.

[18] X. Yue*, M. Zeng, Y. Wang, X. Wang, Z. Zeng, Z. Zhao, J. Cheng, An encoding readout method used for Multi-gap Resistive Plate Chambers (MRPCs) for muon tomography, JOURNAL OF INSTRUMENTATION 9 (2014).

[19] M. Zeng*, Z. Zeng, J. Cang, X. Pan, T. Xue, H. Ma, H. Yi, J. Cheng, A Prototype of LaBr3:Ce in situ Gamma-Ray Spectrometer for Marine Environmental Monitoring, Technology and Instrumentation in Particle Physics 2014, Amsterdam, the Netherlands, 2014.

[20] X. Han, M. Zeng*, G. Gong, J. Cheng, B. Shao, Multi-channel SiPM readout system, Qinghua Daxue Xuebao/Journal of Tsinghua University 54 (2014) 695.

[21] J. Pan, Y. Yang, Y. Tian, M. Zeng, T. Deng, W. Xu, X. Han, S. Sun, J. Lv*, High detection efficiency neutron sensitive microchannel plate, JOURNAL OF INSTRUMENTATION 8 (2013).

[22] Z. Tian, X. Ouyang*, M. Zeng, Z. Cheng, Application of mean value theorem of integrals in the efficiency callibration technology of radioactive xeon sample, ACTA PHYSICA SINICA 62 (2013).

[23] 卓晴，王京春，黄开胜，江永亨，曾鸣，等. 全国大学生智能汽车竞赛的研究与实践[J]. 中国大学教学, 2012(4): 74-77.

[24] Li L*, Gong G H*, Zeng M*. Silicon photomultiplier readout system for the ECAL in the PEBS and test results from the system[J]. CHINESE PHYSICS C, 2011, 35(12): 1139-1142..

[25] Zeng Ming*; Shao Beibei; Hou Lei; Gong Guanghua; Li Jianmin; Li Yuxiong. BLM System for Linac and Booster at SSRF. NUCLEAR TECHNOLOGY, 2009. 168(3) p. 676-679, Sp. Iss. SI, 2009.

[26] Hou Lei*; Zeng Ming; Gong Guanghua; Shao Beibei; Li Yuxiong. Beam Loss Monitor System for SSRF Storage Ring. JOURNAL OF NUCLEAR SCIENCE AND TECHNOLOGY, 2008. Suppl. 5: p. 425-427, 2008.

[27] Li Juexin, Li Yuxiong*, Xu Bing, Wu Can, Zeng Ming. Mini-DDL and Its Applications in the Radiation Field Measurement around Accelerators, Chinese Physics C (HEP & NP), 2008.

[28] Ming Zeng*; Yuxiong Li; Guanghua Gong; Juexin Li; Beibei Shao; Zhengguo Zhao. Prototype of linac BLM at NSRL. Nuclear Instruments and Methods in Physics Research, Section A, p526-529, Vol. 579, Issue 1, 2007.

[29] 曾鸣, 提高嵌入式软件质量的途径. 电子产品世界, 2005, 05(3).

[30] 曾鸣, uC/OS-Ⅱ实时操作系统在嵌入式平台上进行移植的一般方法和技巧. 今日电子, 2004, 11.

CDEX合作组文章:：

[1] Z. She, L. P. Jia, Q. Yue, et al. and C. Collaboration, Direct Detection Constraints on Dark Photons with the CDEX-10 Experiment at the China Jinping Underground Laboratory, Physical Review Letters 124, (2020).

[2] L. T. Yang, H. B. Li, Q. Yue, et al. and C. Collaboration, Search for Light Weakly-Interacting-Massive-Particle Dark Matter by Annual Modulation Analysis with a Point-Contact Germanium Detector at the China Jinping Underground Laboratory, Physical Review Letters 123, (2019).

[3] Z. Z. Liu, Q. Yue, L. T. Yang, et al., Constraints on Spin-Independent Nucleus Scattering with Sub-GeV Weakly Interacting Massive Particle Dark Matter from the CDEX-1B Experiment at the China Jinping Underground Laboratory, Physical Review Letters 123, (2019).

[4] H. Jiang, L.P. Jia, Q. Yue, K.J. Kang, J.P. Cheng, Y.J. Li, H.T. Wong, M. Agartioglu, et al., Limits on Light Weakly Interacting Massive Particles from the First 102.8 kg x day Data of the CDEX-10 Experiment, PHYSICAL REVIEW LETTERS 120 (2018).

[5] Zhao W, Yue Q, Kang K J, et al. Search of low-mass WIMPs with a p-type point contact germanium detector in the CDEX-1 experiment[J]. PHYSICAL REVIEW D, 2016, 93(0920039).

LHCb合作组文章:

[1] R. Aaij, C. Abellán Beteta, T. Ackernley, et al. and LHCb Collaboration, First Observation of the Decay Bs0 →K-Μ+νμ and a Measurement of |Vub | / |Vcb |, Phys Rev Lett 126, (2021).

[2] R. Aaij, C. Abellán Beteta, T. Ackernley, et al. and Lhc. Collaboration, Search for A →μ+μ-Decays, Physical Review Letters 124, (2020).

[3] R. Aaij, C.A. Beteta, B. Adeva, M. Adinolfi, C.A. Aidala, Z. Ajaltouni, S. Akar, P. Albicocco, et al., Observation of a Narrow Pentaquark State, P-c(4312)(+), and of the Two-Peak Structure of the P-c(4450)(+), PHYSICAL REVIEW LETTERS 122 (2019).

[4] R. Aaij, C.A. Beteta, B. Adeva, M. Adinolfi, C.A. Aidala, Z. Ajaltouni, S. Akar, P. Albicocco, et al., Search for Lepton-Universality Violation in B+ -> K(+)l(+)l(-) Decays, PHYSICAL REVIEW LETTERS 122 (2019).

[5] R. Arink, S. Bachmann, Y. Bagaturia, et al., Performance of the LHCb Outer Tracker, Journal of Instrumentation 9, (2014).

[6] Jr. Alves A A, Andrade Filho L M, Barbosa A F, et al. The LHCb Detector at the LHC[J]. JOURNAL OF INSTRUMENTATION, 2008, 3(S08005).

专著/教材：

[1] 译 《嵌入式实时操作系统μC/OS-III》，北京航空航天大学出版社，ISBN:9787512409668，2012年11月

[2] 著 《单片机与嵌入式系统开发方法》，清华大学出版社，ISBN:9787302208235，2009年10月

● 2018年至今 中国核学会 核电子学与核探测技术分会 理事、副秘书长

● 2017年至今 Nuclear Science and Techniques Associate Editor

● 2015年至今 Association for Computing Machinery (ACM) 会员

● 2009年至今 IEEE NUCLEAR & PLASMA SCIENCE SOCIETY Member

● 2008年至今 全国大学生智能汽车竞赛组委会秘书处 成员

● 2021年 邓稼先青年科技奖

● 2020年 省部级科学技术进步奖 二等奖（排序2）

● 2018年 国家精品在线开放课程 主讲

● 2013年 北京市高等教育教学成果奖 一等奖

● 2020年 清华大学精品课程 主讲

● 2020年 清华大学刘冰奖

● 2019年 清华大学教学成果奖 一等奖

● 2018年 中科院粒子物理前沿卓越创新中心“青年优秀人才”

● 2015年 清华大学青年教师教学优秀奖

● 2015年 清华大学林枫辅导员奖（教师）

● 2012年 清华大学教学成果奖 一等奖