学术论文: |
1. 常天英, 王雷, 贾磊. 用于大坝受力检测的分布式光纤传感器. 山东大学学报(工学版)增刊, 2005, 35: 226-229. 2. 常天英, 贾磊, 隋青美, 李东升. 光电二极管在光栅解调电路中的应用研究. 仪表技术与传感器, 2007, 12: 44-45,75. 3. 张伟, 隋青美, 常天英, 张玲. 基于71m6515h 和双cpu 的智能动态分相无功补偿控制器. 继电器, 2007, 35(10): 56-58, 63. ei收录. 4. tianying chang, dongsheng li, qingmei sui, lei jia, zhanxiong wei, hongliang cui. applications of fiber optic bragg grating sensing technology in a forked tunnel model. automation and logistics, 2007 ieee international conference on, 2007, 18-21: 1652-1657. ei收录. 5. tianying chang, david y. li, thomas e. koscica, hong-liang cui, qingmei sui, and lei jia. fiber optic distributed temperature and strain sensing system based on brillouin light scattering. applied optics, 2008, 47(33): 6202-6206. ei 收录,sci收录. 6. 常天英, 贾磊, 隋青美. 镀cu光纤bragg光栅高温实验研究. 光电子.激光, 2008, 19(2): 187-190. ei收录. 7. 常天英, 李东升, 隋青美, 贾磊. 光纤光栅传感技术在分岔隧道模型中的实验研究. 仪器仪表学报, 2008, 29(1): 103-108. ei收录. 8. 常天英, 贾磊, 隋青美. 基于虚拟仪器的光纤光栅温度传感系统设计. 半导体光电, 2008, 29(1): 140-142. ei收录. 9. tianying chang, koscica, t.e. , li d.y. , lei jia qingmei sui, hong-liang cui. a novel detection method of brillouin backscattered light in optical fiber. ieee sensors journal, 2009, 9(4): 430-434. sci收录. 10. tianying chang, lei jia, qingmei sui, jing wang, hong-liang cui. “study on electro-optics modulator in brillouin-distribution fiber sensing system.” the 8th world congress on intelligent control and automation (wcica 2010), 6868 – 6872.ei 收录. 11. tianying chang, hong-liang cui. “path loss consideration of a fast beam scanning 2.2 thz spectral imaging radar”, nanoelectronic devices for defense & security conference (2011), poster. 12. tianying chang, hong-liang cui. “design and simulation of tunable cw thz source based on laser photomixing and archimedean spiral antenna.” 6th international symposium on advanced optical manufacturing and testing technologies, 2012 proc. of spie, vol. 8418 1d-1~7. 13. tianying chang, david y. li, yu zhao, ruijuan yang, yongliang wang, jin zhang, and hong-liang cui. “a novel temperature-strain decoupling method for distributed fiber sensing system based on backscattered light.” 6th international symposium on advanced optical manufacturing and testing technologies, 2012 proc. of spie, vol. 8418 1e-1~8. (invited talk) 14. 常天英*. 光纤传感器及其在地质矿产勘探开发中的应用. 吉林大学学报(地球科学版), 2012, 42(5): 1571-1579. 15. chang tianying, cui hongliang. “determination of direction of arrival of seismic wave by a single tri-axial fiber optic geophone.” 《防务技术:英文版》, 2013, 9(1): 1-10. (封面文章) 16. tianying chang; ruijuan yang; yongliang wang; david y. li; lei jia; hong-liang cui. “improved distributed fiber optic sensing system based on single-ended double-pulse input brillouin scattering.” proc. spie 9062, smart sensor phenomena, technology, networks, and systems integration 2014, 906203: 1-5. 17. tianying chang; lei jia; qingmei sui; hong-liang cui. “high-temperature measurement using cu-plating fiber bragg grating for metal smart structure applications.” spie 9061, sensors and smart structures technologies for civil, mechanical, and aerospace systems 2014, 90613p: 1-4. 18. 杨瑞娟, 常天英, 王玮琪, 刘磊. 分布式光纤温度应变传感系统性能改进研究. 半导体光电, 2014, 35(1): 118-122. 19. 王敏, 李婷婷, 常天英, 张瑾, 仲志成. 结合小波变换和经验模态分解的拉曼信号去噪研究[j]. 半导体光电, 2014, 35(3): 527-530. 中文核心 20. miao yu, ye liu, hong-liang cui, and tianying chang*. ambient condition desensitization of a fiber raman temperature sensing system based on a dynamic sampling-correction scheme. applied optics, 2015, 54(21): 4823-4827. sci检索, (issn:1559-128x) 21. jin zhang, changcheng shi, yuting ma, xiaohui han, wei li, tianying chang, dongshan wei, chunlei du, hong-liang cui*. spectroscopic study of terahertz reflection and transmission properties of carbon fiber reinforced plastic composites. optical engineering. 2015, 54(5) 054106. sci检索, (issn:0091-3286) 22. 胡伟, 常天英*, 王玮琪, 张谨. 太赫兹扫描光路系统的仿真与分析. 半导体光电. 2015, 36(3): 478-490.中文核心 23. 贾成艳, 常天英*, 樊伟, 胡伟, 杨传法, 刘陵玉. 太赫兹波穿透煤层的衰减特性[j]. 煤炭学报, 2015, 40(1): 298-302. ei 检索 issn: 0253-9993. 24. 张紫茵, 邢砾云, 马宇婷, 张瑾, 常天英. 太赫兹复合材料无损检测技术及其应用, 太赫兹科学与电子信息学报. 2015, 13(4): 562-568中文核心 25. jia cheng-yan, fan wei, hu wei, yang chuan-fa, liu ling-yu,chang tian-ying*, cui hong-liang investigation of w-band dielectric constant of coals by free space method. 2015 international terahertz technology and application symposium. proc. spie 9795, selected papers of the photoelectronic technology committee conferences held june–july 2015, 97950o (november 5, 2015); doi:10.1117/12.2209550; ei会议 26. zheng yan, xing liyun, chang tianying, wang min, sun yufeng, cui hongliang, hu wei, liu ye, zhao yue. signal detection of an optical fiber surface plasmon resonance sensor. infrared and laser engineering. 2015, 44(6): 1865-1871. ei检索 27. 李薇, 施长城, 张瑾, 韩晓惠, 马宇婷, 沈俊, 常天英, 魏东山, 杜春雷, 韩利雄, 姚远, 马晓辉. 纤维增强复合材料太赫兹成像无损检测. 太赫兹科学与电子信息学报. 2015, 13(3): 396-400. 中文核心 28. 郭耀, 李刚, 贾成艳, 常天英*,马科夫•阿列克谢. 冰力学参数的超声波测试研究, 极地研究. 中文核心accepted 29. 刘野, 于淼, 常天英*, 陈建冬. 小波降噪应用于分布式光纤干涉振动检测及定位系统[j].光学精密工程. 2015, 23: 71-76. ei检索issn: 1004-924x. 30. 杨忠波, 王化斌*, 彭晓昱, 施长城, 夏良平, 汤明杰, 常天英, 魏东山, 杜春雷. 基于扫描探针显微镜的近场超空间分辨指纹光谱技术研究现状, 红外与毫米波学报. sci检索accepted 31. zheng yan, sun yufeng, xing liyun, dai guangbin, chang tianying*, xia liangping, wang min, lang jinpeng, and cui hongliang. compact real-time online oil spill detection system based on surface plasmon resonance. infrared and laser engineering. 2015, 44(11): 3446-3453. ei检索 issn: 1007-2276. 32. mingjie tang, qing huang, dongshan wei, guozhong zhao, tianying chang, kuan kou, min wang, chunlei du, weiling fu, hong-liang cui. terahertz spectroscopy of oligonucleotides in aqueous solutions. journal of biomedical optics. 2015, 20(9): 95009. sci 检索 33. 马科夫•阿列克谢, 郭耀, 常天英*, 李刚, 贾成艳, 刘野, 古尔巴诺娃•娜塔莉亚, 达拉拉伊•帕维尔. 光纤布拉格光栅在冰声学性能测量中的应用. 光学学报. 2015, 35(11): 1106001. ei检索issn: 0253-2239 34. wei fan, chengyan jia, wei hu, chuanfa yang, lingyu liu, xiansheng zhang, tianying chang*, hong-liang cui. dielectric properties of coals in the low-terahertz frequency region. fuel. 2015, 162: 294-304. sci检索(issn:0016-2361) 35. wang min, yang ye*, xing liyun, zheng yan, fan wei, hu wei, jia chengyan, chen jiandong, zhang jin, chang tianying, cui hongliang. terahertz low-loss hollow-core pipe waveguides. optical engineering. 2015, 54(8): 085106. sci检索 |