1.辐射探测技术

2.核物理实验

3.核测井技术

4.辐射测屏蔽与防护

博士，教授，博士生导师，一直从事粒子探测器研发及应用研究，入选国家级青年人才和西安交通大学青年拔尖人才A类。现为中国核学会射线束分会常务理事、中国核学会核电子学与核探测技术分会理事、中国核学会核测试与分析分会理事、陕西省核学会理事、陕西省核安全辐射协会理事、大亚湾中微子实验国际合作组和江门中微子实验国际合作组单位理事，担任江门中微子实验国际合作组L3 负责人。

中国核学会射线束分会常务理事、陕西省核学会理事、陕西省核安全辐射协会理事、大亚湾中微子实验国际合作组和江门中微子实验国际合作组单位理事，担任江门中微子实验国际合作组L3 负责人。

曾参加北京谱仪III、大亚湾中微子实验等大型粒子物理实验探测器的研究、建造和数据分析，在探测器模拟、研发和建造上具有丰富的经验。获第十二届陕西青年科技奖、2016基础物理突破奖、第一届中国科协优秀科技论文遴选计划优秀论文和第十届中国科协年会科技工作者创新创业大赛（陕西赛区）铜奖。

主持国家及省部级科研项目7项，在核探测及相关领域的知名期刊发表SCI论文近70篇，其中10篇同等贡献ESI高引论文，第一/通讯作者SCI论文35篇(1篇《International Journal of Mass Spectrometry》封面论文)。作为第一发明人获得发明专利授权12项、实用新型专利授权2项和软件著作权5项，多次在国际会议上做主旨报告，任《Nuclear Science and Engineering》、《Journal of Instrumentation》、《Applied Radiation and Isotopes》、《 Nuclear Engineering and Technology》和《Nuclear Science and Techniques》等行业知名SCI期刊审稿人。

完成了《电动力学》精品资源共享课的建设。作为班主任，所带的核工22班荣获2012-2013学年度优秀班集体，两次（2014年、2019年）荣获西安交通大学优秀班主任，已经指导本科生在SCI期刊发表论文5篇，申请发明专利6项，指导学生完成了2016年省级大学生创新训练项目和2021年国家级大学生创新训练项目，三次（2018年、2020年、2021年）获得全国高校学生课外“核+X”创意大赛优秀奖指导老师，2022年获得陕西省第二届高校学生课外“核+X”创意大赛特等奖指导老师。2017年指导的毕业设计学生荣获西安交通大学2017年本科生优秀毕业设计（top1%）。

正在主讲或者曾主讲本科生课程《原子核物理实验方法》、《核信息获取与处理》和《电动力学》、研究生课程《辐射模拟软件设计》和《蒙特卡罗方法在核技术中的应用》，已培养硕博研究生12名。

1.深地下粒子物理实验的RPC反符合探测器研究

2.基于屏栅电离室的带电粒子鉴别方法研究

3.江门中微子实验-导管刻度系统

4.中子探测器及仪表传输路径建模仿真设计

5.自给能中子探测器设计和性能分析软件工具开发

6.闪烁体探测器性能优化模拟平台开发

7.强脉冲混合场产生及输运模拟软件平台技术开发

8.可控源放射性测井数值模拟研究

9.4.75"中子密度随钻测井仪探测特性及仪器环境影响测试

10.随钻可控源中子、地层元素刻度方法验证及仪器探测特性测试

11.冷阴极X射线管研发制作

12.空气中氡光学检测模拟实验研究

13.新型空气闪烁α探测器仿真研究

14.脉冲X射线对金刚石晶体的致热效应分析

15.基于eTOF测量自由电子激光偏振态的方案研究

16.CSNS白光中子源屏栅电离室的设计研究

17.ZnO(Ga)快时间分辨X射线探测器研究

18.提高大亚湾中微子实验RPC 探测器性能的数据分析方法研究

19.大面积PMT玻壳耐压性能测试

20.高计数率电木RPC研发

21.低噪声薄电木板RPC研制

22.环保、经济、安全型RPC探测器工作气体及其老化机理研究

1.主要论文

[1]    Qingmin Zhang,Yifang Wang,Jiawen Zhang,Jun Cao,Talent Kwok,Joseph Yuen Keung HOR,Jin Chen,Liehua Ma,Jifeng Han,Sen Qian,An underground cosmic-ray detector made of RPC ( Nuclear Instruments and Methods in Physics Research A 583(2007)278-284.

[2]    Qingmin Zhang*, Yifang Wang, Jiawen Zhang, Zhe Ning, Jin Chen, Weiping Niu, Bakelite RPCs for Digital Hadron Calorimeter, Nucl. Instr. and Meth. A , Volume 654, Issue 1, Page 300-307, 2011.

[3]    Q. Zhang, B. Bilki, J. Butler, E. May, G. Mavromanolakis, E. Norbeck, J. Repond*, D. Underwood, L. Xia, Environmental Dependence of Performance of Resistive Plate Chambers, JINST, Volume 5, Issue 2, 2010.

[4]    Qingmin Zhang*, Zhipeng Lv, Jiawen Zhang, Yuguang Xie, Sen Qian, Zhe Ning, Jilei Xu, Mengyun Guan,JM  Kebwaro, Jun Yan, Mengxuan Xu, Yuchi Chen,Developments of oil-free Bakelite resistive plate chambers for particle physics experiments, 12th Workshop on Resistive Place Chambers and Related Detectors, Beijing, China, 23-28 February 2014, 2014 JINST 9 C07020.

[5]    Qingmin Zhang*, Zhigang Hu, Bangjie Deng, Mengxuan Xu, Yuhang Guo, A Simple Iterative Method for Compensating Response Delay of Self-powered Neutron Detector, Nuclear Science and Engineering , Nuclear Science and Engineering, Volume 186 pages 293–302, June 2017.

[6]    Qingmin Zhang*, Zhipeng Lv, Bangjie Deng, Jiawen Zhang, Sen Qian, Jilei Xu, An Improved Underground Cosmic-ray Detector Made of RPCs, 2017 JINST 12 T06003.

[7]    Qingmin Zhang*, Zhipeng Lv,Jinge Lv, Jiawen Zhang, Jilei Xu, Zhe Ning,More environment-friendly and Safe Working Gas Mixtures for Bakelite RPCs Operated in Streamer Mode, 2017 JINST 12 P08017.

[8]    Qingmin Zhang, Bangjie Deng, Yuanmiaoliang Chen, Bochao Liu, Shaofei Chen, Jinquan Fan, Lie Feng, Haixiao Deng*, Bo Liu, Dong Wang ,Design of a Nondestructive two-in-one  Instrument for Measuring Polarization and Energy Spectrum at X-ray FEL Facility, 2017 JINST 12 T10003.

[9]    Qingmin Zhang*, Bangjie Deng, Xinxin Liu, Chengyuan Li, Yaodong Sang, Liangzhi Cao,Guangwen Bi, Chuntao Tang, Peng Zhang, Dayin Tong, Yang Li, Deconvolution-based real-time neutron flux reconstruction for Self-Powered Neutron Detector, Nuclear Engineering and Design 326 (2018) 261–267.

[10] Qingmin Zhang*, Xinxin Liu, Bangjie Deng, Liangzhi Cao, Chuntao Tang, Numerical Optimization of Rhodium Self-Powered Neutron Detector, Annals of Nuclear Energy 113 (2018) 519-525.

[11] Qingmin Zhang*,Jun Yan,Bangjie Deng, Jingwen Zhang, Jinge Lv,Xin Wen,Keqing Gao，An ultrafast X-ray scintillating detector made of ZnO(Ga)，2017 JINST 12 P12033.

[12] Zhe Ning, Qingmin Zhang*, Jilei Xu, Logan Lebanowski, Jiawen Zhang, Changgen Yang, Miao He, Jie Zhao, Jiaheng Zou, Viktor Pec, Shih-Kai Lin, Mengyun Guan, Huifeng Hao, Lei Zheng, Xiaolu Ji, Fei Li, Kwong Lau, Vit Vorobel, Calibration algorithms of RPC detectors at Daya Bay Neutrino Experiment, 2013 JINST 8 T03007.

[13] LV Zhipeng, ZHANG Qingmin*,ZHAO Jie,ZHANG Jiawen,XIE Yuguang,QIAN Sen, NING Zhe,Jeremiah Monari Kebwaro,Chen Yuchi,HE Zixin, A RPC Test Station Based on ROOT and VME，NUCL SCI TECH (2016) 27:49，DOI 10.1007/s41365-016-0034-5.

[14] SONG Mei-Qi, ZHANG Qing-Min*, GUO Yu-Hang, LI Kai, DENG Hai-Xiao, Numerical Modeling on Thermal Loading of Diamond Crystal in X-ray FEL Oscillator, Chinese Physics C Vol. 40, No. 4 (2016) 048101.

[15] Yuchi Chen, Lihua Zhai, Hu Deng, Xianglong Yuan, Zhiming Li, Qingmin Zhang*,The design of electrostatic quadrupole zoom lens for fixed multi-collector system at mass spectrometer, International Journal of Mass Spectrometry,Volume 408, 10 September 2016, Pages 1–8.

[16] Yingtan Zhao,Ruirui Fan,Qingmin Zhang*,Yuefeng He,Zhijia Sun,Liang Zhou,Jingyu Tang,Huaiyong Bai,Haoyu Jiang,Guohui Zhang, Particle Identification Technique using Grid Ionization Chamber at China Spallation Neutron Source, 2017 JINST 12 P11001.

[17] Waseem Khan, Qingmin Zhang*,Chaohui He, Muhammad Saleh，Monte Carlo simulation of the full energy peak efficiency of an HPGe detector，Applied Radiation and Isotopes 131 (2018) 67-70.

[18] Bangjie Deng, Jiawei Yan, Qingmin Zhang*, Yaodong Sang, Haixiao Deng#, Proposal of X-ray absorption spectroscopy and magnetic circular dichroism using broadband free-electron lasers, Journal of Synchrotron Radiation, Volume 26, 2019, Pages 1-10.

[19] Xin Wen,Qingmin Zhang*, Zhuang Shao,Magnetron Sputtering for ZnO:Ga Scintillation Film Production and Its Application Research Status in Nuclear Detection, Crystals 2019, 9(5), 263, https://doi.org/10.3390/cryst9050263

[20] Yuhang Guo, Qingmin Zhang*, Feiyang Zhang, Mengjiao Xiao, Jianglai Liu, Eryuan Qu, Design of Guide Tube Calibration System for JUNO Experiment,2019 JINST, 14 T09005.

[21] Yaodong Sang, Bangjie Deng, Qingmin Zhang* et al, Development and verification of a simulation toolkit for Self-Powered Neutron Detector, Annals of Nuclear Energy 150 (2021) 107784.

[22] Keqing Gao,Han Yi,Qingmin Zhang*,Ruirui Fan# et al, First experiment on neutron resonance radiography with a Micromegas detector at the Back-n white neutron source，2021 JINST 16 P02036.

[23] Qingmin Zhang*, Haizheng Chen et al, A simple method for measuring electron drift velocity in gases using grid ionization chamber, Applied Radiation and Isotopes 168 (2021) 109496 .

[24] Zixing He, Wenliang Wang, Lihua Zhai, Zhiming Li, Hu Deng, Tangtao Feng, Qingmin Zhang*, A gated integration method for the detection of unevenly distributed ions bunches in laser resonant ionization mass spectrometry, International Journal of Mass Spectrometry 465 (2021) 116587.

[25] Yuhang Guo, Kangfu Zhu, Qingmin Zhang*, Feiyang Zhang, Yue Meng, Jianglai Liu, Eryuan Qu，Construction and simulation bias study of the guide Tube Calibration System for JUNO，JINST_006T_0221

[26] Cai Z*, Zhang Q^#, et al. Research on radon exhalation characteristics of uranium tailings with cover materials under the coupling load of low-frequency vibration and seepage gradient, Journal of Radioanalytical and Nuclear Chemistry (2021) 327:359–371.

[27] Khan Rashid, Kaleem Ur Rahman, Zhang Qingmin*, Altaf Ur Rahman, Sikander Azam, A Dahshan, The effect of substitutional doping of Yb2+ on structural, electronic, and optical properties of CsCaX3 (X: Cl, Br, I) phosphors: A first-principles study, J. Phys.: Condens. Matter 34 (2022) 065502.

[28] Qingmin Zhang, Miao He*, Jilei Xu, Jiaheng Zou, Zhe Ning, Jie Zhao, Haoqi Lu, Viktor Pěč, Logan Lebanowski, Offline Software of RPC Detector System in Daya Bay Reactor Neutrino Experiment, International Conference on Computing in High Energy and Nuclear Physics 2012, New York, USA, 2012.5.21-25,  Journal  of Physics: Conference Series, Volume 396, Part 2, 2012.

[29] Qingmin Zhang*, Yuhang Guo, Yuekun Heng, Li Zhou, Boxiang Yu, Jianglai Liu, Mengjiao Xiao, Feiyang Zhang, JUNO Central Detector and its Calibration System,38^th International Conference on High Energy Physics, Chicago, USA, 3-10 August,2016, Proceedings of Science, PoS(ICHEP2016)967.

[30] Yuhang Guo,Qingmin Zhang*, Precise Measurements of Oscillation Parameters θ13 and Δ , The 15th International Conference on Flavor Physics & CP Violation,5-9 June 2017,Prague, Czech Republic, PoS(FPCP2017)021.

[31] Qingmin Zhang*, Yuhang Guo, The JUNO Calibration System, 39^th International Conference on High Energy Physics, Seoul, Korea, 4-11 July, 2018，Proceedings of Science, PoS(ICHEP2018/)811.

[32] Qingmin Zhang*, JUNO: A Multipurpose Underground Precision Neutrino Detector, 39th International Conference on High Energy Physics, Seoul, Korea, 4-11 July, 2018，Proceedings of Science, PoS(ICHEP2018)119.

[33] KHAN RASHID，Altaf Ur Rahman*，Qingmin Zhang* et al.,First-principles computational exploration of ferromagnetism in monolayer GaS via substitutional doping, J. Phys.: Condens. Matter 33 (2021) 314003.

[34] Xiang Zhou*, Qian Liu, Michael Wurm, Qingmin Zhang, Yayun Ding, Zhenyu Zhang, Yangheng Zheng, Li Zhou, Jun Cao, Yifang Wang, Rayleigh scattering of linear alkylbenzene in large liquid scintillator detectors, Review of Scientific Instruments 86, 073310 (2015)

[35] Xiang Zhou*, Qingmin Zhang, Qian Liu, Zhenyu Zhang, Yayun Ding, Li Zhou, Jun Cao, Densities, isobaric thermal expansion coefficients and isothermal compressibilities of linear alkylbenzene, Physica Scripta 90 (2015) 055701

[36] Liehua Ma, Logan Lebanowski, Jin Chen, Mengyun Guan, Robert Hackenburg, Kwong Lau, Shih-Kai Lin, Changguo Lu, Kirk McDonald, Cullen Newsom, Zhe Ning, Viktor Pěč, Sen Qian, Vit Vorobel, Yifang Wang, Jilei Xu, Changgen Yang, Jiawen Zhang*, Qingmin Zhang, The mass production and quality control of RPCs for the Daya Bay experiment, Nuclear Instruments and Methods in Physics Research A, Volume 659, Issue 1, Page 154-160, 2011.

[37] Jiawen Zhang, Sen Qian*, Jin Chen, Zhizhen Du, Jifeng Han, Rubo Li, Jichen Liu, Hao Liang, Yajun Mao, Liehua Ma, Yifang Wang, Yigang Xie, Yuguang Xie, Qingmin Zhang, Jianbing Zhao, T. Zhao, Yongzhao Zhou, The BESIII muon identification system, Nuclear Instruments and Methods in Physics Research A,  Volume 614, Issue 2, Page 196–205, 2010.

[38] MA Lie-Hua*,WANG Yi-Fang, ZHANG Jia-Wen, Logan Lebanowski, Viktor Pec, XU Guang-Hua, CHEN Jin, XIE Yu-Guang, HAN Ji-Feng, ZHANG Qing-Min, QIAN Sen, NING Zhe, Study of RPC gas composition using Daya Bay RPCs, Chinese Physics C, Volume 34, Issue 8, Page 1116-1121, 2010.

[39] B. Bilki, J. Butler, G. Mavromanolakis, E. May, E. Norbeck, J. Repond*, D. Underwood, L. Xia, Q. Zhang, Hadron Showers in a Digital Hadron Calorimeter, JINST 2009(4) P10008.

[40] B. Bilki, J. Butler, E. May, G. Mavromanolakis, E. Norbeck, J. Repond*, D. Underwood, L. Xia, Q. Zhang, Measurement of the Rate Capability of Resistive Plate Chambers ,JINST 2009(4) P06003.

[41] B. Bilki, J. Butler, E. May, G. Mavromanolakis, E. Norbeck, J. Repond*, D. Underwood, L. Xia, Q. Zhang, Measurement of Positron Showers with a Digital Hadron Calorimeter, JINST 2009(4) P04006.

[42] HAN Ji-Feng*,ZHANG Jia-Wen, CHEN Jin, ZHANG Qing-Min, LIU Qian, XIE Yu-Guang, QIAN Sen, MA Lie-Hua,Test of BESIII RPC in avalanche mode, Chinese Physics C 2008 32 (05): 373-376.

[43] HAN Ji-Feng*,ZHANG Jia-Wen, CHEN Jin, ZHAO Jian-Bing, YAO Ning, LIU Qian,XIE Yu-Guang,ZHANG Qing-Min,QIAN Sen,MA Lie-Hua,Quality control and database on resistive plate chambers for the BESIII experiment, Chinese Physics C 2008 32 (03): 196-200.

[44] Jifeng Han*, Jiawen Zhang, Jin Chen, Jianbin Zhao, Qian Liu, Yuguang Xie,Qingmin Zhang, Sen Qian, Ning Yao, Liehua Ma,Cosmic ray test results on resistive plate chamber for the BESIII experiments , Nuclear Instruments and Methods in Physics Research A 577 (2007)552-557.

[45] Sen Qian*, Zhe Ning, Jiawen Zhang, Qingmin Zhang, Ran Han, The study and design of the large area neutron monitor with RPC-Gd, 12th Workshop on Resistive Place Chambers and Releted Detectors, Beijing, China, 23-28 February 2014,2015 JINST 10 C02014

[46] Daya Bay Collaboration (K.V. Tsang et al.), Results from the Daya Bay Reactor Neutrino Experiment, Nuclear Physics B - Proceedings Supplements,Volumes 246–247, January–February 2014, Pages 18–22,Proceedings of the 9th International Symposium on Cosmology and Particle Astrophysics.

[47] Burak Bilki, John Butler, Ed May, Georgios Mavromanolakis, Edwin Norbeck, José Repond, David Underwood, Lei Xia, Qingmin Zhang, Tests of a Digital Hadron Calorimeter, XIV International Conference on Calorimetry in High Energy Physics (CALOR 2010) , Beijing, China, 10-14 May 2010,Journal of Physics: Conference Series, Volume 293, Number 1, 2011.

[48] Daya Bay Collaboration (F.P. An et al.), Observation of electron-antineutrino disappearance at Daya Bay，Phys. Rev. Lett. 108 (2012) ESI文章

[49] Daya Bay Collaboration (F.P. An et al.),A side-by-side comparison of Daya Bay antineutrino detectors, Nucl. Inst. and Meth. A 685 (2012)

[50] Daya Bay Collaboration (F.P. An et al.), Improved Measurement of Electron Antineutrino Disappearance at Daya Bay，Chinese Physics C , F. P. An et al 2013 Chinese Phys. C 37 011001.ESI文章

[51] Daya Bay Collaboration (F.P. An et al.), Spectral Measurement of Electron Antineutrino Oscillation Amplitude and Frequency at Daya Bay, PRL 112, 061801 (2014) ESI文章

[52] Daya Bay Collaboration (F.P. An et al.), Search for a light sterile neutrino at daya bay, Physical Review Letters,卷: 113 期: 14文献号: 141802  出版年: OCT 1 2014

[53] Daya Bay Collaboration (F.P. An et al.), Independent measurement of the neutrino mixing angle theta 13 via neutron capture on hydrogen at Daya Bay, Physical Review D, 90, 071101(R) (2014)

[54] Daya Bay Collaboration (F.P. An et al.), The muon system of the Daya Bay Reactor antineutrino experiment, Nuclear Instruments and Methods in Physics Research A773(2015)8–20

[55] Daya Bay Collaboration (F.P. An et al.), New Measurement of Antineutrino Oscillation with the Full Detector Configuration at Daya Bay, PRL 115, 111802 (2015) ESI文章

[56] Daya Bay Collaboration (F.P. An et al.), The detector system of the Daya Bay reactor neutrino experiment, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment Volume 811, 1 March 2016, Pages 133–161

[57] Daya Bay Collaboration (F.P. An et al.), Measurement of the Reactor Antineutrino Flux and Spectrum at Daya Bay, Physical Review Letters, PRL 116, 061801 (2016) ESI文章

[58] Daya Bay Collaboration (F.P. An et al.), New measurement of theta(13) via neutron capture on hydrogen at Daya Bay, Physical Review D, volume 93, 072011 (2016)

[59] JUNO Collaboration (An, FP (An, Fengpeng ), Neutrino physics with JUNO, J. Phys. G: Nucl. Part. Phys. 43 (2016) 030401 (188pp), ESI文章

[60] Daya Bay Collaboration (F.P. An et al.), Improved Search for a Light Sterile Neutrino with the Full Configuration, Physical Review Letters, Volume 117,151802 (2016).

[61] Daya Bay Collaboration (F.P. An et al.)， Improved measurement of the reactor antineutrino flux and spectrum at Daya Bay, Chinese Physics C Vo1．41，No．1(2017) 013002. ESI论文

[62] Daya Bay Collaboration (F.P. An et al.)，Evolution of the Reactor Antineutrino Flux and Spectrum at Daya Bay,Physical Review Letter,118 251801,2017.

[63] Daya Bay Collaboration (F.P. An et al.)，Measurement of electron antineutrino oscillation based on 1230 days of operation of the Daya Bay experiment, PHYSICAL REVIEW D,95,072006,2017. ESI论文

[64] Daya Bay Collaboration (A. B. Balantekin et al. )Measurement of the Electron Antineutrino Oscillation with 1958 Days of Operation at Daya Bay[J]. Physical Review Letters, 2018, 121(24).

[65] 钱森，王贻芳，张家文，陈锡辉，蔡啸，陈进，马列华，张清民，韩纪锋，基于LabVIEW设计的热中子RPC-Gd探测器测试系统，《核电子学与和探测器技术》2007年第6期。

[66] 许孟轩，张清民，贺朝会等. 用于堆芯监测的铑自给能中子探测器的发展与现状[EB/OL].北京：中国科技论文在线[2014-05-15]. http://www.paper.edu.cn/releasepaper/content/201405-248.

[67] 严俊，张清民，张景文等. ZnO晶体在辐射探测领域的应用现状及潜力[EB/OL].北京：中国科技论文在线[2014-01-26].

[68] 吕金戈，张清民，郭宇航. 反应堆中子探测器的现状与展望[EB/OL].北京：中国科技论文在线 [2017-02-23]. http://www.paper.edu.cn/releasepaper/content/201702-144.

[69] 温欣，张清民，ZnO:Ga的制备及其在辐射探测上的应用研究现状[EB/OL]. 北京：中国科技论文在线 [2018-10-30]. http://www.paper.edu.cn/releasepaper/content/201810-75.

[70] Jing Hu,Jinliang Liu,Zhongbing Zhang,Liang Chen,Yuhang Guo,Shiyi He,Mengxuan Xu,Leidang Zhou,Zhiming Yao, Xingqiu Yuan,Qingmin Zhang,Xiaoping Ouyang, Recoil-proton track imaging as a new way for neutron spectrometry measurements, Scientific Reports, Volume 8,2018

2.主要专利

[1]张清民,许孟轩,贺朝会,严俊,陈宇驰,吕志鹏, 一种消除自给能中子探测器延迟效应的方法，2016.6.19，中国，ZL201310754307.6

[2]张清民, 严俊, 贺朝会，王三丙，罗茂益，一种提高光电倍增器光阴极光利用率的优化设计方法，2015.08.26，中国，ZL201310335276.0

[3]张清民,郭宇航,杨艳,李永宏,赵映潭,一种可连续改变施力大小的测力装置及测力方法,2018.10.23,中国, ZL 2016 1 0069446.9

[4]张清民,刘昕昕,邓邦杰，一种自给能中子探测器结构的优化设计方法，中国，ZL201710403676.9，授权日：2019年1月29日

[5]张清民,童大银,李杨,邓邦杰,吕金戈，基于反卷积的自给能中子探测器延迟效应消除方法，专利号：ZL201710365845.4，授权日：2019.04.16

[6]张清民，吕金戈，陈海铮，孙培伟，岳爱忠，王树声， 一种用于地球元素测井仪解谱获取元素产额的方法，专利号：ZL201811200394.X，授权日：2020.01.21

[7]张清民，一种无电源辐射监测装置及方法，专利号：ZL201811465157.6，授权日：2020.5.22

[8] 张清民，陈海铮，赵映潭，杨艳，一种测量电子在有外加电场气体中漂移速度的方法，专利号：ZL201811289037.5，授权日：2020.08.25

[9]张清民，吴梦祺，王树声，邵壮，危光友，一种确定自给能中子探测器延迟消除电路组成及其参数的方法，专利号：ZL 201910148722.4 授权日：2020.09.08

[10]张清民，桑耀东，邓邦杰，曹良志，李云召，一种自给能中子探测器静电效应的评估方法，专利号：ZL201910982838.8,授权日：2020.12.08

[11]张清民，吴孟祺，安旅行，邵壮，一种基于数字电路消除自给能中子探测器延迟效应的方法，专利号：ZL201910763488.6，授权日：2021.01.15

[12]张清民，朱康甫，郭宇航，邵壮，朱浩然，李家明，蔡梓麒，一种收放线均可紧线的装置及方法以及基于其的牵引运送系统，专利号：ZL202110580727.1，授权日：2022年3月8日

[13] 张清民,郭宇航,杨艳,李永宏,赵映潭,一种可连续改变施力大小的测力装置,中国, 2016.7.20，ZL201620099994.1

[14] 张清民，郭宇航，吕金戈，赵映潭，一种用于管道穿线的气动装置，2017.12.26，中国，ZL 2017 2 0566141.9

[15] 张清民，邵壮，一种鉴别α、β和γ射线的探测器及探测方法，申请号：202110089706.X，申请日：2021.01.22

[16] 张清民，刘时语，邵壮，一种基于s域线性方程组消除SPND延迟的方法及系统，申请号：202210116498.2，申请日：2022-02-07

[17] 张清民，朱浩然，蔡梓麒，朱康甫，邵壮，李家明，桑耀东，陈海铮，郭昊轩，一种覆压孔渗核素对流与弥散联测的实验系统及实验方法，申请号：202111605020.8，申请日：2021-12-24

[18] 张清民，蔡梓麒，邵壮，朱康甫，郭宇航，一种制备离子注入的多层陶瓷沉积-金属扩散偶的方法，申请号：202111595379.1，申请日：2021-12-23

3.软件著作权

[1] 中子孔隙度测井环境校正软件，登记号：2020SR0442311，证书号：软著登字第5321007号，登记日期：2020年5月12日

[2]闪烁体发光模拟程序软件，登记号：2020SR1195354，证书号：软著登字第6074050号，登记日期：2020年10月09日

[3]自给能中子探测器响应计算与分析软件，登记号：2020SR1888213，证书号：软著登字第6693342号，登记日期：2020年11月24日

[4]闪烁体探测器性能优化模拟平台，登记号：2020SR1713401，证书号：软著登字第6514373号，登记日期：2020年12月02日

[5]辐射场快速响应计算与分析软件，登记号：2022SR0393895，证书号：软著登字第9348094号，登记日期：2022年03月25日

电子邮箱：zhangqingmin(at)mail.xjtu.edu.cn

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