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张建忠

日期:2019-03-15   作者:   点击数:

名:

张建忠

 

称:

教授

位:

博士

导:

是,光学工程(学硕)

 

控制工程,集成电路工程(专硕)

导:

是,光学工程

箱:

zhangjianzhong@tyut.edu.cn

门:

光学工程系

 

 

 

研究方向

1.分布式光纤传感;

2.无线网络传感;

3.混沌光保密通信。

 

主讲课程《光通信原理》《光纤光学》《数学物理方法》(本科)

   《光通信原理与器件》《光纤光学》(研究生)

 

个人经历

学习经历

19989月-20027月,太原理工大学,应用物理学,本科/学士

20059月-20087月,太原理工大学,物理电子学,研究生/工学硕士

20099月-201211月,太原理工大学,电路与系统,研究生/工学博士

 

工作经历

20027—20086月,太原理工大学,理学院物理系,助教

20087—20136月,太原理工大学,亚洲bet356体育在线投注,讲师

20137—201812月,太原理工大学,亚洲bet356体育在线投注,副教授

20191至今,太原理工大学,亚洲bet356体育在线投注,教授

201912至今,太原理工大学,亚洲bet356体育在线投注,光学工程系主任

201311—201411月,德国锡根大学,传感器系统中心,访问学者

20176—20178月,美国堪萨斯大学,通信技术中心,高级访问学者

 

科研项目

1.   张建忠,基于混沌布里渊动态光栅的分布式温度和应变无交叉敏感测量研究(项目编号:61875146),国家自然科学基金面上项目,2019.01-2022.12 

2.   张建忠,连续散射分布式光反馈产生无延时特征的宽带混沌激光(项目编号:61205142),国家青年自然科学基金,2013.01-2015.12

3.   张建忠,面向矿井电缆智能化的混沌分布式光纤传感技术(项目编号:201803D121064),山西省重点研发计划(高新领域)项目,2018.07-2020.07             

4.   张建忠,新型分布式光纤传感仪,山西省高等学校科技成果转化培育项目, 2020.02-2021.12

5.   张建忠,远程激光混沌保密通信关键技术的研究(项目编号:2010021003-4),山西省青年科技基金项目, 2010.01-2012.12  

6.   张建忠,面向高速密钥产生的连续散射外光反馈宽带混沌激光源(项目编号:2015011049),山西省自然科学基金面上项目, 2015.01-2017.12

7.   张建忠,混沌BOCDA分布式光纤传感在矿井电缆测温中的应用(项目编号;2016-036),山西省回国留学人员科研资助项目,2016.6-2019.6

 

科研成果

【论文】

1.         Mengwen Li, Xiaocheng Zhang, Jianzhong Zhang(张建忠)*, Mingjiang Zhang, Lijun Qiao and Tao Wang, Long-rang and high-precision fault measurement based on hybrid integrated chaotic laser, IEEE Photonics Technology Letters, 2019, 31(16), 1389-1392.

2.         Mengwen Li, Xiaocheng Zhang, Jianzhong Zhang(张建忠)*, Mingjiang Zhang, Lijun Qiao and Tao Wang, True random coding for Brillouin optical correlation domain analysis, OSA Continuum, 2019, 2(7), 2234-2243.

3.         Shuangyi Cui, Jianzhong Zhang(张建忠)*, Chaotic secure communication based on single feedback phase modulation and channel transmission, IEEE Photonics Journal, 2019, 11(5), 7905208.

4.         Jianzhong Zhang(张建忠), Mingtao Zhang, Mingjiang Zhang, Yi Liu, Changkun Feng, Yahui Wang, Yuncai Wang, Chaotic Brillouin optical correlation domain analysis, Optics Letters, 2018, 43(8), 1722-1725.

5.         Jianzhong Zhang(张建忠), Yahui Wang, Mingjiang Zhang, Qian Zhang, Mengwen Li, Chenyu Wu, Lijun Qiao, Yuncai Wang, Time-gated chaotic Brillouin optical correlation domain analysis, Optics Express, 2018, 26(13), 17597-17607.

6.         Jianzhong Zhang(张建忠), Changkun Feng, Mingjiang Zhang, Yi Liu, Chenyu Wu, Yahui Wang, Brillouin optical correlation domain analysis based on chaotic laser with suppressed time delay signature, Optics Express, 2018, 26(6), 6962-6972.

7.         Jianzhong Zhang(张建忠), Zhuping Li, Mingjiang Zhang, Yi Liu, Mengwen Li, Optimized chaotic Brillouin dynamic grating with filtered optical feedback, Scientific Reports, 2018, 8(827), 1-9.

8.         Jianzhong Zhang(张建忠), Shuangyi Cui, Enhanced bidirection secure communication based on digital key and chaotic random optical feedback, IEEE Photonics Journal, 2018, 10(6), 7908308.

9.         Jianzhong Zhang(张建忠), Mengwen Li, Anbang Wang, Mingjiang Zhang, Yongning Ji, and Yuncai Wang, Time-delay-signature-suppressed broadband chaos generated by scattering feedback and optical injection, Applied Optics, 2018, 57(22), 6314-6317.

10.     Jianzhong Zhang(张建忠), Changkun Feng, Mingjiang Zhang, and Yi Liu, One-time pad image encryption based on physical random numbers from chaotic laser, Optical Review, 2018, 25(5), 540-548.

11.     Jianzhong Zhang(张建忠), Xiaoyu Yu, Mingjiang Zhang, Yi Liu, and Zhuping Li, High-speed noise-based random bit generator by removing 1/f noise with different comparison, Journal of Beijing Institue of Technology, 2018, 27(3), 363-370.

12.     Jianzhong Zhang(张建忠), Zhuping Li, Mingjiang Zhang, Yi Liu, Yang Li, Characterization of Brillouin dynamic grating based on chaotic laser, Optics Communications, 2017, 396, 210-215.

13.     Jianzhong Zhang(张建忠), Changkun Feng, Mingjiang Zhang, Yi Liu, Yongning Zhang, Suppression of time delay signature based on Brillouin backscattering of chaotic laser, IEEE Photonics Journal, 2017, 9(2), 1502408.

14.     Jianzhong Zhang(张建忠), Mingjiang Zhang, Yi Liu, Pu Li, Xiaogang Yi, Mingtao Zhang, Yuncai Wang, Fast random number generation with spontaneous emission noise of a single-mode semiconductor laser, Laser Physics, 2016, 26, 115002-1-5.

15.     Jianzhong Zhang(张建忠), Yuncai Wang, Ming Liu, Lugang Xue, Pu Li, Anbang Wang, Mingjiang Zhang. A robust random number generator based on differential comparison of chaotic laser signals. Optics Express, 2012, 20(7), 7496-7506.

16.     Jianzhong Zhang(张建忠), Yuncai Wang, Lugang Xue, Jiayin Hou, Beibei Zhang, Anbang Wang, Mingjiang Zhang. Delay Line Length Selection in Generating Fast Random Numbers with a Chaotic Laser. Applied  Optics, 2012, 51(9), 1709-1714.

17.     Jianzhong Zhang(张建忠), Anbang Wang, Juanfen Wang, Yuncai Wang. Wavelength division multiplexing of chaotic secure and optic-fiber communications. Optics Express, 2009, 17(8), 6357-6367.

18.     Jianzhong Zhang(张建忠), Yuncai Wang, Anbang Wang. Improving performance of optical fibre chaotic communication by dispersion compensation techniques. Chinese Physics B, 2008, 17(9), 3264-3269.

19.     Jianzhong Zhang(张建忠), Juanfen Wang, Yuncai Wang. High-speed physical random number generation using a chaotic semiconductor laser. SPIE, International Conference on Optical Instruments and Technology, 2011, 1-6.

20.     Jian Li, Qian Zhang, Yang Xu, Mingjiang Zhang, Jianzhong Zhang(张建忠), Lijuan Qiao, M. M. Promi and Tao Wang, High-accuracy distributed temperature measurement using difference sensitive-temperature compensation for Raman-based optical fiber sensing, Optics Express, 2019, 27(25),38163-38196.

21.     Lijuan Qiao, Tianshuang Lv, Hao Xu, Mingjiang Zhang, Jianzhang Zhang(张建忠), Tao Wang, et. al, Generation of flat wideband chaos based on mutual injection of semiconductor lasers, Optics Letters, 2019, 44, 5394-5397.

22.     Yahui Wang, Mingjiang Zhang, Jianzhong Zhang(张建忠), Lijun Qiao, Tao Wang, Qiao Zhang, Le Zhao, Yuncai Wang, Millimeter-level-spatial-resolution Brillouin optical correlation- domain analysis based on broadband chaotic laser, Journal of Lightwave Technology, 2019, 37, 3706-3712.

23.     Jian Li, Qian Zhang, Tao Yu, Mingjiang Zhang, Jianzhong Zhang(张建忠), Lijun Qiao and Tao Wang, R-DTS With Heat Transfer Functional Model for Perceiving the Surrounding Temperature, IEEE Sensors Journal, 2020, 20(2), 816-822.

24.     Jian Li, Tao Yu, Mingjiang Zhang, Jianzhong Zhang(张建忠), Lijun Qiao and Tao Wang, Temperature and Crack Measurement Using Distributed Optic-Fiber Sensor Based on Raman Loop Configuration and Fiber Loss, IEEE Photonics Journal, 2019 , 4 (11), 6802113.

25.     Jian Li, Baoqiang Yan, Mingjiang Zhang, Jianzhong Zhang(张建忠), Baoquan Jin, Yu Wang, and Dong Wang, Long-Range Raman Distributed Fiber Temperature Sensor with Early Warning Model for Fire Detection and Prevention. IEEE Sensors Journal, 2019.19(10): 3711-3717.

26.     Jian Li, Baoqiang Yan, Mingjiang Zhang, Jianzhong Zhang(张建忠), Lijun Qiao, and Tao Wang, Auto-correction method for improving temperature stability in a long-range Raman fiber temperature sensor. Applied Optics, 2019 (58):37-42.

27.     Jian Li, Yang Xu, Mingjiang Zhang, Jianzhong Zhang(张建忠), Lijun Qiao and Tao Wang, Performance improvement in double-ended RDTS by suppressing the local external physics perturbation and intermodal dispersion. Chinese Optics Letters, 2019.17(7), 070602.

28.     Baoqiang Yan, Jian Li, Mingjiang Zhang, Jianzhong Zhang(张建忠), Lijun Qiao and Tao Wang,Raman Distributed Temperature Sensor with Optical Dynamic Difference Compensationand Visual Localization Technology for Tunnel Fire Detection. Sensors, 2019, 19, 2320. 

29.     Baoqiang Yan, Jian Li, Mingjiang Zhang, Yang Xu, Tao Yu, Jianzhong Zhang(张建忠), Lijun Qiao and Tao Wang, Temperature Accuracy and Resolution Improvement for Raman Distributed Fiber-optics Sensor by Using Rayleigh Noise Suppression Method. Applied Optics2020, 59(1), 22-27.

30.     Pingping Xue, Jianzhong Zhang(张建忠), Lingzhen Yang. Synchronization and optimization of semiconductor ring laser with self-feedback. AIP Advance, 2015, 5(037142), 1-7.

31.     Yingying Zhang, Jianzhong Zhang(张建忠), Mingjiang Zhang, Yuncai Wang. 2.87Gbps random bit generation based on bandwidth-enhanced chaotic laser. Chinese Optics Letters, 2011, 9(3), 031404-1-3.

32.     Yuncai Wang, Jianzhong Zhang(张建忠), Anbang Wang, Yanli Li, Gengwei Zhang. The effects of dispersion on optical fiber chaotic secure communication. SPIE, Photonics ASIA Conference, 2007.

33.     Yi Liu, Mingjiang Zhang, Jianzhong Zhang(张建忠), Yuncai Wang, Single longitudinal-mode triple-ring Brillouin fiber laser with a saturable absorber ring resonator, Journal of Lightwave Technology, 2017, 35(9), 1744-1749.

34.     Mingjiang Zhang, Hui Liu, Jianzhong Zhang(张建忠), Yi Liu, Ruixia Liu, Brillouin backscattering light properties of chaotic laser injecting into an optical fiber, IEEE Photonics Journal, 2017, 9(5), 1600610.

35.     Yongning Zhang, Mingjiang Zhang, Jianzhong Zhang(张建忠), Performance improvement of power-over-fiber system using noise-modulated laser diode, Applied Optics, 2016, 55(7), 1625-1629.

36.     Pu Li, Yuncai Wang, Jianzhong Zhang(张建忠), All-optical fast random number generator. Optics Express, 2010, 18(19), 20360-20369.

37.     Yuncai Wang, Pu Li, Jianzhong Zhang(张建忠). Fast random number generation in optical domain with ultra-wide bandwidth chaotic laser. IEEE Photonics Technology Letters, 2010, 22(22), 1680-1682.

38.     Yuan Wu, Bingjie Wang, Jianzhong Zhang(张建忠), Anbang Wang, Yuncai Wang, Suppression of time delay signature in chaotic semiconductor lasers with filtered optical feedback. Mathematical Problems in Engineering, 2013, 2013(4), 571393-1-7.

39.     Zhaoxia Zhang, Haili Tong, Jianzhong Zhang(张建忠), Baojin Xiao, SS method employs novel encryption. Microwave RF, 2012, 51(6), 84.

40.     Baoqiang Yan, Jian Li, Mingjiang Zhang, Jianzhong Zhang(张建忠), Lijun Qiao, Tao Wang, Raman distributed temperature sensor with optical dynamic difference compensation and visual localization technology for tunnel fire detection, Sensors, 2019, 19, 2320.

41.     Yi Liu, Mingjiang Zhang, Lan Li, Jianzhong Zhang(张建忠), Dual-wavelength single-longitudinal-mode erbium-doped fiber laser with Mach-Zehnder interferometer and saturable absorber loop, Laser Physics, 2018, 28, 1-5.

42.     Jian Li, Baoqiang Yan, Mingjiang Zhang, Jianzhong Zhang(张建忠), Lijun Qiao, Tao Wang, Auto-correction method for improving temperature stability in a long-range Raman fiber temperature sensor, Applied Optics, 2019, 58(1), 37-42.

43.     Jian Li, Yang Xu, Mingjiang Zhang, Jianzhong Zhang(张建忠), Lijun Qiao, Tao Wang, Performance improvement in double-ended RDTS by suppressing the local external physics perturbation and intermodal dispersion, Chinese Optics Letters, 2019, 17(7), 070602.

44.     Baoqiang Yan, Jian Li, Mingjiang Zhang, Jianzhong Zhang(张建忠), Lijun Qiao, Tao Wang, Raman distributed temperature sensor with optical dynamic difference compensation and visual localization technology for tunnel fire detection, Sensors, 2019, 19, 2320, 1-12.

45.     Jian Li, Tao Yu, Mingjiang Zhang, Jianzhong Zhang(张建忠), Lijun Qiao, Tao Wang, Temperature and crack measurement using distributed optic-fiber sensor based on Raman loop configuration and fiber loss, IEEE Photonics Journal, 2019, 11(4), 6802113.

46.     Jian Li, Yunting Li, Mingjiang Zhang, Yi Liu, Jianzhong Zhang(张建忠), Baoqing Yan, Dong Wang, Performance improvement of Raman distributed temperature system by using noise suppression, Photonic Sensors, 2018, 8(2), 103-113.

47.     Mingjiang Zhang, Yanan Niu, Tong Zhao, Jianzhong Zhang(张建忠), Yi Liu, Yuhang Xu, Jie Meng, Yuncai Wang, Anbang Wang, Chaos generation by a hybrid integrated chaotic semiconductor laser, Chinese Physics B, 2018, 27(5), 050502.

48.     Anbang Wang, Pu Li, Jianguo Zhang, Jianzhong Zhang(张建忠), Lei Li, Yuncai Wang. 4.5 Gbps high-speed real-time physical random bit generator. Optics Express, 2013, 21(17), 20452-20462.

49.     Pu Li, Lei Jiang, Jianguo Zhang, Jianzhong Zhang(张建忠), Yuncai Wang. Low-complexity TOAD-based all-optical sampling gate with ultralow switching energy and high linearity. IEEE Photonics Journal, 2015, 7(4), 1-8.

50.     Yi Liu, Mingjiang Zhang, Peng Wang, Jianzhong Zhang(张建忠), Yuncai Wang, Temperature sensing using four-wavelength Fabry-Perot Brillouin-erbium fiber laser by low frequency detection, Laser Physics, 2015, 25(11), 115104-1-4.

51.     Mingjiang Zhang, Lian Meng, Anbang Wang, Jianzhong Zhang(张建忠), Yuncai Wang. Simulation of chaotic ultra-wideband over fiber link based on optical injection chaotic laser diode. Optik, 2013, 124(23), 6475-6479.

52.     Mingjiang Zhang, Tiegen Liu, Anbang Wang, Jianzhong Zhang(张建忠), Yuncai Wang. All-optical clock frequency divider using Fabry-Perot laser diode based on the dynamical period-one oscillation. Optics Communications, 2011, 284(5), 1289-1294.

53.     Mingjiang Zhang, Tiegen Liu, Pu Li, Anbang Wang, Jianzhong Zhang(张建忠), Yuncai Wang. Generation of broadband chaotic laser using dual-wavelength optically injected Fabry-Perot laser diode with optical feedback. IEEE Photonics Technology Letters, 2011, 23(24), 1872-1874.

54.     Zhaoxia Zhang, Junjie Zhou, Dongze Zhang, Zheng Fu, Jianzhong Zhang(张建忠). Chaotic-laser-based true random sequence generation for spread-spectrum communications, Chinese Journal of Lasers, 2012, 39(10), 1-6.

55.     Pu Li, Yuncai Wang, Anbang Wang, Lingzhen Yang, Mingjiang Zhang, Jianzhong Zhang(张建忠). Direct generation of all-optical random numbers from optical pulse amplitude chaos, Optics Express, 2012, 20(4), 4297-4308.

56.     Lin Zou, Ye Feng, Yibiao Yang, Anbang Wang, Lingzhen Yang, Jianzhong Zhang(张建忠). High-speed chaotic communication using an optical fibre ring as a key. Chinese Physics B, 2011, 20(9), 094209-1-6.

57.     Mingjiang Zhang, Yuhang Xu, Tong Zhao, Yanan Niu, Tianshuang Lv, Yu Liu, Zhike Zhang , Jianzhong Zhang(张建忠), Yi Liu, Yuncai Wang, and Anban Wang, A Hybrid Integrated Short-External-Cavity Chaotic Semiconductor Laser, IEEE Photonics Technology Letters, 2017, 29(21), 1911-1914.

58.     Mingjiang Zhang, Xiaoyi Bao, Jing Chai, Yongning Zhang, Ruixia Liu, Hui Liu, Yi Liu, Jianzhong Zhang(张建忠), Impact of Brillouin amplification on the spatial resolution of noise-correlated Brillouin optical reflectometry, Chinese Optics Letters, 2017, 15(8), 080603.

59.     张建忠 ,王安帮, 王云才,混沌光通信与OC-48光纤通信的波分复用, 物理学报 2009, 58(6), 192-197.

60.     张建忠,王安帮,张明江,李晓春,王云才,反馈相位随机调制消除混沌半导体激光器的外腔长信息,物理学报2011, 60(9), 094207-1--10.

61.     张建忠,李璞,张英英,陈莎莎,王云才,宽带混沌激光实现高速随机数的产生,深圳大学学报理工版, 2011, 28(4), 316-324. (特邀稿)

62.     张建忠,冯昌坤,张明江,刘毅,张永宁,布里渊散射对光反馈混沌源时延特征的抑制,中国激光2017,44(2),0208002-1-6.

63.     张明涛,张建忠,张建国,徐航,张明江,王安帮,王云才,面向水下测距的混沌调制激光雷达,激光与光电子学进展2016,53(051402-1-8).

64.     刘慧,张建忠,张明江,混沌光在光纤中的布里渊散射光特性,光学学报2016, 36(4).

65.     张继兵,张建忠,杨毅彪,梁君生,王云才,外腔半导体激光器随机数熵源的腔长分析,物理学报2010, 59(11), 7679-7685.

66.     陈莎莎,张建忠,杨玲珍,梁君生,王云才,基于混沌激光产生1 Gbit/s 的随机数,物理学报2011,60(1), 117-122.

67.     薛路刚,张建忠,刘明,王云才,鲁棒的高速物理随机数发生器科学通报2011,56(33), 2746-2752.

68.     吕天爽, 杨强, 于小雨, 乔丽君, 张建忠, 王涛, 汪钦, 徐红春, 张明江, 50GHz宽带混沌信号发生器, 激光与光电子学进展, 2019, 56(13),177-183.

69.     孟洁, 乔丽君, 张明江, 张建忠, 王涛, 三段式集成DFB激光器生成微波信号的仿真研究, 深圳大学学报理工版, 2019,

70.     于小雨,王兴,张建忠*,张明江,乔丽君,王涛,热电制冷器不同的混沌激光器驱动电路设计,深圳大学学报理工版2019,36(5),544-550.

71.     江镭,李璞,张建忠,孙媛媛,胡兵,王云才,基于太赫兹光非对称解复用器结构的低开关能量、高线性度全光采样门实验研究,物理学报2015,64(15), 154213.

72.     萧宝瑾,候佳音,张建忠,薛路刚,王云才,混沌半导体激光器的弛豫振荡频率对随机序列速率的影响,物理学报2012,15(2012),150502-1-7.

73.     萧宝瑾,仝海丽,张建忠,张朝霞,王云才,硬件加密的扩频通信方案,物理学报2011,60(8),080506-1-6.

74.     薛萍萍,杨玲珍,张建忠,张朝霞,半导体环形激光器高偏置电流下的动态特性,中国激光2015,42(2),1-3.

75.     吕玉祥,牛利兵,张建忠,王云才,基于混沌激光的500Mb/s高速真随机数发生器,中国激光2011,38(5),0502010-1-5.

76.     张贝贝,王安帮,张建忠,李璞,王云才,2.5Gbit/s物理随机码发生器,科学通报201358(21), 2049-2056.

77.     张明江,李健,刘毅,张建忠,李云亭,黄琦,刘瑞霞,杨帅军,面向分布式光纤拉曼测温的新型温度解调方法,中国激光2017,44(3),0306002-1-8.

78.     李云亭, 张明江, 刘毅, 张建忠, 动态噪声差分算法实现拉曼测温仪高精度检测, 深圳大学学报理工版, 2017, 34(1), 20-26.

79.     张永宁,张明江,刘毅,张建忠,刘慧,王云才,激光线宽对光纤受激布里渊散射阈值的影响,深圳大学学报理工版, 2016, 53(1), 89-95.

80.     张明江,刘瑞霞,张瑜,刘毅,张建忠,基于电光调制器的布里渊光时域反射仪解调系统性能研究,光学与光电技术2017,15(2),35-40.

【专利】

1.   随机布里渊动态光栅的产生方法及装置,发明专利,中国,专利号:ZL201811298576.5授权日:2019.11.22,第一发明人

2.   一种混沌布里渊光时域/相干域融合分析装置及方法,专利号:ZL201710848003.4,授权日:2019.10.8,第一发明人

3.   基于物理随机码调制的BOCDA分布式光纤传感装置及方法,专利号:ZL201710686999.3,授权日:2019.10.8,第一发明人

4.   一种基于ASE噪声的分布式光纤拉曼测温装置及方法,专利号:ZL201810482262.4,授权日:2019.10.8,第一发明人

5.   一种基于相干域的混沌激光外腔时延的识别方法,专利号:ZL201710804471.1,授权日:2019.8.30,第一发明人

6.   一种基于相干域的混沌激光外腔时延的识别装置,专利号:ZL201710804275.4,授权日:2019.8.9,第一发明人

7.   单端布里渊光相干域分析的高压电缆测温装置及方法,专利号:ZL201610249590.0,授权日:2018.10.26,第一发明人

8.   基于混沌布里渊动态光栅的分布式光纤传感系统,专利号:ZL201611002982.3,授权日:2018.10.12,第一发明人

9.   单端混沌布里渊光时域分析的分布式光纤传感装置及方法,专利号:ZL201610306001.8,授权日:2018.04.06,第一发明人

10.  混沌相关法定位的布里渊分布式光纤传感装置及方法,专利号:ZL201610305960.8,授权日:2018.04.06,第一发明人

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荣誉与奖励

2011年,获山西省科学技术奖技术发明类二等奖

2012年,获山西省科学技术奖自然科学类二等奖

2014年,获山西省科学技术奖自然科学类二等奖;

2015年,获太原理工大学亚洲bet356体育在线投注“优秀共产党员”;

2018年,入选山西省“三晋英才”支持计划青年优秀人才

2018年,获太原理工大学亚洲bet356体育在线投注“优秀共产党员”。

 

 

数据更新日期:2020.2.22