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尚连聚副教授

信息来源: 发布日期: 2018-11-20 浏览次数:

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本人资料

通讯地址:山东省曲阜市静轩西路57曲阜师范大学物理工程学院光电教研室

电子邮件:lianjushang@163.com

办公地址:曲阜师范大学物理工程学院202

相关链接:physics.qfnu.edu.cn/info/1014/1462.htm


个人简历

教育背景:

19976  本科毕业于曲阜师范大学;

20006  硕士研究生毕业于曲阜师范大学;

20076  博士研究生毕业于天津大学。

工作经历:

2000年至今,曲阜师范大学物理工程学院教师;

20165月-201611月,美国威斯康星大学(University of Wisconsin)访问学者。

业余爱好:

网球、乒乓球、舞蹈和轮滑。


教学任务

主要从事光电信息科学与工程专业教学;计算机语言教学;信息时代教学模式研究。


研究兴趣

光电子、激光和信息化教学。


曾获奖励

201001 获天津市自然科学奖三等奖;

201212 获国家数学建模竞赛山东赛区参赛指导奖。


获得专利

[1]尚连聚,杨秀芹,马任德. LD泵浦的Nd:YVO4/LBO内腔倍频红光激光器”. 专利号:ZL201520903451.6,授权公告日:20160309.

[2]尚连聚,李士玲. “一种低噪声光纤放大器”. 专利号:ZL201521014940.2,授权公告日:20160413.


科研项目

[1]Q全光纤激光器的研究,20070212,曲阜师范大学博士科研启动基金项目, 2009/07-2014/05,项目负责人,5万元,已结题。

[2]军工项目(名称与编号保密),中国人民解放军武器装备部,2004-2006,项目结题组第二成员。

[3]激光二极管抽运固体激光器的研究,XJ02006,曲阜师范大学校级项目, 2002/11-2005/12,项目负责人,0.5万元,已结题。

[4]1.3µm全固态锁模激光器特性研究,KF1103,国家重点实验室开放课题, 2011/11-2014/11,项目组第二成员,10万元,已结题。

[5]新型全固态锁模激光器特性研究,J11LA12,山东省高等学校科技计划项目, 2011/06-2014/06,项目组第二成员,5万元,已结题。

[6]1.3-1.5微米全固态锁模激光器研究,2011GGH20210,山东省科技发展计划项目, 2011/01-2013/11,项目组第二成员,5万元,已结题。

[7]光子晶体光纤光学参量振荡的研究,ZR2009AL013,山东省自然科学基金, 2009/12-2014/11,项目组第三成员,5万元,已结题。

[8]超强激光在临界密度靶中的能量沉积和传输过程的动力学研究,11705101,国家自然科学项目, 2018/01-2020/12,项目组第四成员,25万元,在研。


代表性论著

[1]Lian-ju Shang, Zhen-zhong Cao, Xiu-qin Yang, “A passively Q-switched Yb3+-doped all-fiber laser based on SBS effect,” Optoelectronics and Advanced Materials - Rapid Communications, 10(5-6), 314-316 (2016).

[2]L. Shang, J. Ning, X. Yang, “An acousto-optic Q-switched Yb3+-doped all-fiber laser pumped by diode-lasers,” Optoelectronics and Advanced Materials - Rapid Communications, 4(9), 1275-1277 (2010).

[3]L. J. Shang, J. P. Ning, G. F. Fan, Z. Q. Chen, Q. Han, H. Y. Zhang, “Experimental study of ytterbium-doped double-clad all-fiber laser at 1083 nm,” Journal of Optoelectronics and Advanced Materials, 9(8), 2354-2355 (2007).

[4]Lianju Shang, Jiping Ning, Zhenzhong Cao, Guofang Fan, Zhiqiang Chen, Qun Han, Huayong Zhang, “Factors that influence peak power of Q-switched fiber laser,” Modern Physics Letters B, 21(14), 843-850 (2007).

[5]L. J. Shang, J. P. Ning, G. F. Fan, Z. Q. Chen, Q. Han, H. Y. Zhang, “An useful analysis of selected parameters for the double-clad all-fiber laser with continuous wave,” Journal of Optoelectronics and Advanced Materials, 8(1), 359-362 (2006).

[6]L. J. Shang, J. P. Ning, G. F. Fan, Z. Q. Chen, Q. Han, H. Y. Zhang, “Effective methods to narrow pulse width of Q-switched fiber laser,” Journal of Optoelectronics and Advanced Materials, 8(2), 851-854 (2006).

[7]L. J. Shang, J. P. Ning, G. F. Fan, Z. Q. Chen, Q. Han, H. Y. Zhang, “Effective methods to improve pulse energy of Q-switched fiber laser,” Journal of Optoelectronics and Advanced Materials, 8(3), 1254-1257 (2006)

[8]Shang Lian-Ju, Ning Ji-Ping, “1.34µm Nd:YVO4 high efficiency laser end-pumped by diode-laser of flat-concave cavity type,” Chinese Physics, 14(7), 1387-1391 (2005).

[9]尚连聚. 端面抽运固体激光器的腔模匹配分析. 物理学报, 2003, 52(6): 1408-1411.

[10]尚连聚. 激光二极管端面抽运的1.34µm Nd:YVO4平凹腔型激光器. 物理学报, 2003, 52(10): 2476-2480.

[11]尚连聚, 郑义. 激光二极管端面抽运的1.34µm Nd:YVO4三镜折叠腔型激光器. 物理学报, 2002, 51(9): 2015-2017.

[12]尚连聚, 杨秀芹, 马任德. 主动调Q全光纤激光器的发展评述. 激光技术, 2012, 36(2): 170-173.

[13]尚连聚, 马任德, 李爱国. 光纤型Q开关. 激光技术, 2010, 34(6): 721-724.

[14]尚连聚, 光隔离器. 现代物理知识, 2003, 15(3), 53-54.

[15]尚连聚, 关注教师减负. 中国教工, 2002, (12), 32-33.

[16]尚连聚, 关于现代化教学媒体的使用与管理的几点思考, 实验教学与仪器, 2001, (7-8), 52-53.

[17]张树东, 尚连聚, 徐慧主编. 光信息专业综合实验, 山东大学出版社, 20158.

[18]Jiping Ning, Lianju Shang, Guofang Fan, Zhiqiang Chen, Qun Han, Huayong Zhang, “An analysis of designing a CW double-clad fiber laser,” Proceedings of SPIE (Advanced Laser Technologies 2005), 6344I, 63440O/1-63440O/6 (2006).

[19]G. F. Fan, J. P. Ning, L. J. Shang, Q. Han, Z. Q. Chen, “A novel opinion about the coupling loss between single-mode fibers and waveguides,” Journal of Optoelectronics and Advanced Materials, 8(5), 1912-1914 (2006).

[20]Fan Guo-Fang, Ning Ji-Ping, Shang Lian-Ju, Han Qun, Chen Zhi-Qiang, “A new method to analyse two-side tapered waveguides,” Chinese Physics Letters, 22(9), 2394-2395 (2005).

[21]Guofang Fan, Jiping Ning, Lianju Shang, Qun Han, Zhiquan Chen, “Overlap integral in integrated acousto-optic devices,” Optical Engineering, 45(6), 064601 1-4 (2006).

[22]Fan G. F., Ning J. P., Shang L. J., Han Q., Chen Z. Q., “Overlap integral in abnormal guided acousto-optic interaction,” Journal of  Electromagnetic Waves and Applications, 20(10), 1351-1356 (2006).

[23]Fan G. F., Ning J. P., Shang L. J., Han Q., Chen Z. Q., “Theoretical analysis and design of non-collinear guided-wave acousto-optic devices,” Journal of  Electromagnetic Waves and Applications, 20(13), 1837-1844 (2006).  

[24]Fan Guofang, Ning Jiping, Shang Lianju, Han Qun, Chen Zhiqiang, “The optimum optical penetration depth for high diffraction efficiency in guided acousto-optic devices,” Journal of Materials Science: Materials in Electronics, 17(4), 273-276 (2006).

[25]Qun Han, Jiping Ning, Zhiqiang Chen, Lianju Shang, Guofang Fan, “An efficient shooting method for fibre Raman amplifier design,” Journal of Optics A: Pure and Applied Optics, 7(8), 386-390 (2005).

[26]Han Qun, Ning Ji-Ping, Chen Zhi-Qiang, Shang Lian-Ju, “A novel method for multi-pumped fibre raman amplier gain adjustment,” Chinese Physics Letters, 22(5), 1148-1151 (2005).

[27]Guofang Fan, Jiping Ning, Qun Han, Lianju Shang, Zhiqiang Chen, Dan Luo, Jin Liu, “An improved ray approximation method to design the single-mode 3-D optical waveguide,” Optics Communications, 271(2), 421-423 (2007).

[28]Guofang Fan, Jiping Ning, Enbang Li, Yuan Li, Qun Han, Lianju Shang, Zhiqiang Chen, “Relationship between Bragg bandwidth and acoustic aperture of guided acoustooptic interaction,” Applied Physics Letters, 88(19), 191102 1-2 (2006).