代表性学术成果: 科研项目: 1、非线性光子晶体光纤产生高频光脉冲序列的研究, 08JCYBJC14500,天津市科委,10万,2008.4-2011.3,负责人。结题 2、光子晶体光纤产生超高速率、超短光脉光子晶体光纤中产生高频光脉冲序列的研究冲序列的研究,60808004,国家自然科学基金, 21万,2009.1--2011.12,负责人 3、基于铌酸锂的动态光任意波形产生技术的研究,61377075,国家自然科学基金, 81万,2014.1--2017.12,负责人,结题。 4、光子晶体光纤在微波光子滤波器中的应用研究,11444001,应急管理项目, 2015.1-2016.12,参与。 5、基于强度相关非均匀损耗机制的多波长光纤激光器研究,13JCQNJC01800,天津市青年基金,6万,2013.4-2016.3,参与 6、基于黑磷可饱和吸收体的光纤激光器的研究,天津市面上基金,10万,2017.4-2020.3,第二,天津市自然科学基金:(NO.17JCYBJC16600) 7、基于金属纳米颗粒与光子晶体光纤的LSPR传感机理及应用研究,天津市科委重点项目,20万,2020.4-2023.3,负责人。(20JCZDJC00500) 科研论文 1、Jinmeng Yan, Ailing Zhang*, Qihang Cheng, Wen Li, Ce Sun, High sensitivity open-cavity Mach-Zehnder interferometer based on no-core fiber for seawater salinity measurement[J]. OPTIK,227, February 2021, 165954. SCI:SD3UN 2、Pan Honggang, Guo Shuying, Zhang Ailing, Liu Chang. Dual-pulse Actively Q-switched Fiber Laser Based on EOM and Sagnac Loop[J]. Optical Fiber Technology, 2021, 62: 102456. 3、Guo Shuying, Zhang Ailing, Pan Honggang.Passively Q-switched fiber laser with single and double wavelength switching based on parallel FBGs[J]. Optik, 2021, 241: 1666973. 4、Ailing Zhang, Ce Sun, Honggang Pan Xutao Shi, Wen Li and Qihang Cheng. Characterization of multi-wavelength Q-switched fiber laser by changing wavelength separation of filter. Optical Fiber Technology. Volume 58, September 2020, 102297. SCI:PB5RG 5、Yuan Yao, Jiaqing Hou, Haifeng Liua,⁎, Ailing Zhangb,⁎, Bo Liu, Hao Zhang, Jianguo Liu, Design of Programmable Multi-wavelength Tunable Filter on Lithium Niobate, Results in Physics, 15, 102741, 2019. SCI:JV5FQ 6、Ailing Zhang Liyue Hao, Bo Geng; Dan Li, Investigation of narrow band random fiber ring laser based on random phase-shift Bragg grating, Optics & Laser Technology, 116,1-6, August 2019. SCI(3区):HX6IX, IF:3.319. 7、Ailing Zhang, Dan Li, Honggang Pan and Bin Hao, Mach-Zehnder fiber sensing and positioning system based on common optical path interference technology, APPLIED OPTICS, 58 (13): 3454-3458, MAY 2019. SCI(3区): HX6UV 8、Ailing Zhang, Liyue Hao, Random phase-shift Bragg grating-based random fiber laser with a half-open cavity, Applied Optics, 57(34), 10017-10021, Dec 2018. SCI:HC4NR 9、Ailing Zhang, Dan Li, Interferometric sensor with a PGC-AD-DSM demodulation algorithm insensitive to phase modulation depth and light intensity disturbance, Applied Optics, 57(27), 7950-7955, Sep 2018. SCI:GU2CC 10、Ailing Zhang, Yuan Yao, Yue Zhang, Hongyun Song, “Design of Multi-Wavelength Tunable Filter Based on Lithium Niobate,”, Optics Communications, 415,13-17, Jan 2018. SCI:FX1ZG 11、Ailing Zhang; Shuai Zhang, High Stability Fiber Optics Sensors with an improved PGC demodulation algorithm, IEEE Sensor Journal, 16(21),7681-7684, Nov. 1 2016. SCI:DZ9VU,IF: 1.889 12、Wen Li, Ailing Zhang*, Qihang Cheng, Ce Sun, Yueting Li, Theoretical analysis on SPR based optical fiber refractive index sensor with resonance wavelength covering communication C+L band, Optik, 213, 164696, 2020. SCI:MP8TZ 13、Honggang Pan, Ailing Zhang and Zhengrong Tong, Dark pulse laser with tunable width based on SOA and feedback, IEEE Photonics Technology Letters,28(8), April 15, 2016, 930-932. IDS 号: DH2SX 14、Shuai Zhang, Ailing Zhang, Honggang Pan, Eliminating Light Intensity Disturbance With Reference Compensation In Interferometers, IEEE Photonics Technology Letters, 27(17), 1888-1891, 1 September 2015. SCI:CQ1RC IF:2.110 15、H. G. Pan, A. L. Zhang*, Y. M. Shi, Y. M. Xue, Double-pulse laser based on a semiconductor optical amplifier Laser of Double-pulse Based on Semiconductor Optical Amplifier, Applied Optics, 54(17), 5432-5435 (2015). SCI: CK3FE 16、Ailing Zhang and Changxiu Li, “Analysis of dynamic optical arbitrary waveform generation based on three FBG arrays”, Optics & Laser Technol., volume 52, 81-86, November 2013. SCI:165ON , IF:1.515 17、Ailing Zhang(张爱玲) and Changxiu Li, Dynamic optical arbitrary waveform generation with amplitude controlled by interference of two FBG arrays, Optics Express, 20(21), 23074-23081, 2012 October 8. SCI: 022JP IF: 3.587 18、张玉龙,张爱玲,压缩平稳重调脉冲的色散渐减光纤的设计,物理学报,60(11), 114211, 2011年11月。SCI: 867GE, IF: 1.027 3、授权专利: 1. 基于非线性光纤的高频超短光脉冲的产生装置及工作方法, ZL200910070588.7 2. 一种双波长单纵模光纤激光器及其工作方法, ZL2010101010515 3. 基于光纤Bragg光栅阵列的全光任意波形产生装置及产生方法,ZL 201010568999.1 4. 基于双阵列光纤光栅的光脉冲整形器及其工作方法,ZL201210189373.9 5. 基于三阵列光纤光栅的光脉冲整形器及其工作方法, ZL201210204685.2 6. 基于偏振控制器及波导光栅的动态可调谐滤波器及调谐方法, ZL201310175330.X 7. 基于光纤光栅阵列和光纤延迟线的光脉冲整形器及整形方法, ZL201310174820.8 8. 利用飞秒激光器在铌酸锂波导上刻写光栅的装置及方法ZL201410482650.4 9. 一种振动波形与位置同时测量的光纤传感装置和方法 ZL201410789415.1 10. 一种在铌酸锂晶体上制备周期性波导光栅的方法ZL201510183841.5 11. 一种在铌酸锂晶体上同时制备波导及光栅的方法ZL201510303847.1 12. 一种消除光强扰动的高稳定性光纤传感装置及解调方法ZL201610876459.7 13. 基于电光效应的随机波导光栅电压传感器及其电压检测方法ZL201711383011.2 14. 一种扰动波形和位置同时测量的光纤传感装置和解调方法ZL201811099383.7 |