电子信息与光学工程学院-张昊导师介绍
张昊
教授
硕,博士生导师
男
电子信息与光学工程学院
光学工程
,光学工程
,电子科学与技术
光纤光子学,光纤通信及传感技术,微结构光纤及其应用
haozhang@nankai.edu.cn
Hao Zhang received his PhD degree in Optics from the Institute of Modern Optics, Nankai University (IMONK), in 2005. His PhD research project involved optical fiber amplifiers, optical fiber lasers, and their applications in optical fiber communications. After PhD graduation, he carried out research in the same university as a lecturer. Following the one-year postdoctoral research supported by the UK/China Scholarships for Excellency program at the Imperial College London, UK, in 2007 where he worked on fluorescence imaging using microstructured-optical-fiber-based supercontinuum light source, he came back to Nankai University. He had been an associate professor of the IMONK from 2010 to 2015, and since 2016 he has been a professor of this institute. His current research interests are concerned with whispering gallery mode fiber devices, exceptional point effect in optical fibers, microfluidic fiber sensing systems, fiber-laser-based photonic sensors, fiber grating sensors, and novel microfiber components. He has published more than 200 peer-reviewed journal articles on these topics and contributed to over 30 related conferences.
For more details, please visit my personal homepage at https://ceo.nankai.edu.cn/szll/xdgxyjs/zh1.htm
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科研项目
Research projects under supervision
1. National Natural Science Foundation Project “Investigation of exceptional point manipulation mechanisms and its applications for non-Hermitian systems based on microstructured optical fiber whispering gallery mode microresonators” under Grant No. 12374353 (2024.01-2027.12)
2. NSFC-RS International Exchange Program “Exceptional-point-enhanced whispering gallery mode microcavity optical biosensor for single-molecule detection of cancer markers” under Grant No. 1241101767 (2025.01-2026.12)
3. Natural Science Foundation of Tianjin City “Study on integrated micro/nano-fiber-optic multimodality-coupled sensing mechanisms and applications for early-stage accurate perception of thermal abnormality in lithium batteries” under Grant No. 24JCYBJC00080 (2024.10-2027.9)
4. Natural Science Foundation Project of Tianjin City “Study on mode manipulation mechanism and applications of microstructured-optical-fiber-based optofluidic whispering gallery mode lasers” under Grant No. 19JCYBJC16700 (2019.04-2022.03)
5. National Natural Science Foundation Project “Study on the mechanism and applications of azobenzene-based fiber-optic functional devices with composite periodic microstructures” under Grant No. 11774181 (2018.01-2021.12)
6. The 863 National High Technology Program of China “100 kHz narrow linewidth laser chip and module” under Grant No. 2013AA014201 (undertaker for Nankai University, 2013.01-2016.12)
7. National Natural Science Foundation Project “Study on the mechanism and applications of whispering gallery modes for microstructured optical fibers” under Grant No. 11274182 (2013.01-2016.12)
8. National Natural Science Foundation Project “Study on the acousto-optic interaction mechanism and its applications in multi-dimensional microstructured optical fibers” under Grant No. 11004110 (2011.01-2013.12)
9. Research Funds for the Central Universities project “Investigation of theory and applications for microstructured-optical-fiber-grating-based novel acousto-optic fiber devices” (2010.06-2012.05)
Participated research projects
1. National Natural Science Foundation of China “Dissipative dynamics in deep reconstruction passive mode-locked lasers” under Grant No. 12274238 (2023.01-2026.12)
2. National Natural Science Foundation Project of China “Nonlinear dynamics of optical solitons in few-mode fibers and spatiotemporal mode-locked fiber lasers” under Grant No. 61775107 (2018.01-2021.12)
3. Natural Science Foundation Project of Tianjin City “Investigation of mode manipulation and sensing technology based on opto-fluidic-controlled photonic crystal fibers” under Grant No. 14JCZDJC31300 (2014.04-2017.03)
4. National Natural Science Foundation Project of China “Study on dynamic properties and application of Kerr cavity solitons in photonic crystal fibers” under Grant No. 11174155 (2012.01-2015.12)
5. National Key Basic Research and Development Program of China “Novel MOF-based functional devices, heterogeneous compatible structures, and optoelectronic integration” under Grant No. 2010CB327605 (2010.01-2014.12)
6. National Natural Science Foundation Project of China “Research on theory and application of tilted-grating-based multi-dimension micro structure fiber opto-device” under Grant No. 10904075 (2010.01-2012.12)
7. National Key Natural Science Foundation Project of China “Study on the key technologies and applications for integrated, high speed, multi-parameter, and large scale novel fiber sensor networks” under Grant No. 60736039 (2008.01-2011.12)
8. National Natural Science Foundation Project of China “Study of imaging mechanism of second harmonic generation microscopy under high numerical aperture” under Grant No. 10704043 (2008.01-2010.12)
9. National Natural Science Foundation Project of China “Spatial and temporal properties of singlet oxygen photosensitized in single cells” under Grant No. 60778043 (2008.01-2010.12)
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研究成果
Selected Publications ( * refers to the corresponding author)
Journal Articles
1. Hao Zhang, Shouxin Kang, Bo Liu, Hongguang Dong and Yinping Miao, “All-fiber acousto-optic tunable bandpass filter based on a lateral offset fiber splicing structure”, IEEE Photonics Journal, 7 (1): 2700312, 2015. (SCI: CB5OU; 20160801997356)
2. Hao Zhang, Minghui Qiu, Shouxin Kang, Bo Liu and Yinping Miao, "A tunable interferometric optical bandpass filter based on flexural acoustic wave modulation in a SMF-MOF hybrid configuration with fiber offset splicing output", Microwave and Optical Technology Letters, 57 (1): 31-35, 2015. (SCI: AU0HX; EI: 20144800270410)
3. Hao Zhang, Minghui Qiu, Yinping Miao, Bo Liu, Shecheng Gao and Hongguang Dong, “Acoustic-birefringence-induced orthogonal acousto-optic gratings in grapefruit microstructured fibers”, IEEE Photonics Journal, 5 (3): 2201610, 2013. (SCI: 174VA; EI: 20132616443551)
4. Hao Zhang, Minghui Qiu, Zhifang Wu, Hongguang Dong, Bo Liu and Yinping Miao, “Acousto-optic mode coupling excited by flexural waves in simplified hollow-core photonic crystal fibers”, Journal of Optics, 15 (5): 055402, 2013. (SCI: 152TZ; EI: 20132316390277)
5. Hao Zhang, Bo Liu and Chenglai Jia, “Fiber birefringence measurement based on a beat-frequency-interrogated multilongitudinal-mode distributed Bragg reflector erbium-doped fiber laser”, Microwave and Optical Technology Letters, 54 (3): 702-707, 2012. (SCI: 879MG; EI: 20120914816798)
6. Hao Zhang, Bo Liu, Wei Lin, Hongguang Dong and Lihui Liu, “Acoustic dispersion measurement for a single-mode-fiber-based acoustooptic tunable filter excited by flexural acoustic wave”, Microwave and Optical Technology Letters, 54 (5): 1281-1285, 2012. (SCI: 907QA; EI: 20121414913720)
7. Hao Zhang, Bo Liu and Chenglai Jia, “An active strain sensing system based on single-longitudinal-mode distributed Bragg reflector fiber laser and its applications in the measurement of erbium-doped fiber birefringence”, Microwave and Optical Technology Letters, 53 (11): 2508-2512, 2011. (SCI: 821OX; EI: 20113514270035)
8. Hao Zhang, Bo Liu, Junhao Tao, Hongguang Dong, Tieyan Guo and Meng Zhang, “Acoustic frequency dependence of transmission characteristics in fiber acoustic gratings”, Optica Applicata, 41 (4): 817-823, 2011. (SCI: 911FM; EI: 20121014831520)
9. Hao Zhang, Bo Liu, Jing Sun, Jianhua Luo, Shuangxia Wang, Chenglai Jia and Xiurong Ma, “Photonic generation of microwave signals by exploiting fiber birefringence effect in single-longitudinal-mode distributed Bragg reflector fiber laser”, Microwave and Optical Technology Letters, 52 (3): 535-540, 2010. (SCI: 553JW; EI: 20100412665344)
10. Hao Zhang, Bo Liu, Zhi Wang, Jianhua Luo, Shuangxia Wang, Chenglai Jia and Xiurong Ma, “Temperature-insensitive displacement sensor based on high-birefringence photonic crystal fiber loop mirror”, Optica Applicata, 40 (1): 209-217, 2010. (SCI: 595XL; EI: 20101912926167)
11. Hao Zhang, Bo Liu and Chenglai Jia, “A novel method for active fiber refractive index measurement”, Acta Optica Sinica, 30 (SUPPL.): s100213, 2010. (EI: 20111813958548, in Chinese)
12. Hao Zhang, Bo Liu, Jianhua Luo, Jing Sun, Xiurong Ma, Chenglai Jia and Shuangxia Wang, “Photonic generation of microwave signal using a dual-wavelength single-longitudinal-mode distributed Bragg reflector fiber laser”, Optics Communications, 282 (20): 4114-4118, 2009. (SCI: 496RA; EI: 20093512279955)
13. Hao Zhang, Jianhua Luo, Bo Liu, Shuangxia Wang, Chenglai Jia and Xiurong Ma, “Polarimetric multilongitudinal-mode distributed Bragg reflector fiber laser sensor for strain measurement”, Microwave and Optical Technology Letters, 51 (11): 2559-2563, 2009. (SCI: 493ZJ; EI: 20093912332842)
14. Hao Zhang, Yanli Jin, Qingying Dou, Yange Liu, Shuzhong Yuan and Xiaoyi Dong, “L-band al-optical gain-clamped EDFA by utilizing C-band backward ASE”, Optics Communications, 260 (1): 150-154, 2006. (SCI: 028PJ; EI: 2006109750705)
15. Hao Zhang, Qingying Dou, Yanli Jin, Tuan Guo, Lihui Liu, Yange Liu, Shuzhong Yuan and Xiaoyi Dong, “L-band all-optical gain-clamped erbium-doped fiber amplifier via ASE reflection technique”, Microwave and Optical Technology, 48 (5): 852-854, 2006. (SCI: 032XM; EI: 2006199866421)
16. Hao Zhang, Ling Yu, Yange Liu, Chao Wang, Yao Li, Qingying Dou, Lihui Liu Shuzhong Yuan and Xiaoyi Dong, “Noise figure improvement of a double-pass erbium-doped fiber amplifier by using a Hi-Bi fiber loop mirror as ASE rejecter”, Optics Communications, 244 (1-6): 383-388, 2005. (SCI: 889HG; EI: 2005018766050)
17. Hao Zhang, Lingyun Xiong, Qingying Dou, Yao Li, Ling Yu, Yange Liu, Lihui Liu, Shuzhong Yuan, Guiyun Kai and Xiaoyi Dong, “A room-temperature multiwavelength erbium-doped fibre laser by exploiting polarization hole burning”, Chinese Physics Letters, 22 (1): 122-124, 2005. (SCI: 890IV)
18. Hao Zhang, Qingying Dou, Yao Li, Ling Yu, Yange Liu, Lihui Liu, Shuzhong Yuan and Xiaoyi Dong, “Gain- and noise-figure improvement of a reflective L-band EDFA by using a short length of preamplification EDF”, Microwave and Optical Technology Letters, 45 (1): 60-62, 2005. (SCI: 905SM; EI: 2005189073484)
19. Hao Zhang, Lingyun Xiong, Qingying Dou, Yao Li, Yange Liu, Lihui Liu, Shuzhong Yuan, Guiyun Kai and Xiaoyi Dong, “A room-temperature dual-wavelength erbium-doped fiber laser operating in the L-band”, Microwave and Optical Technology Letters, 45 (1): 12-15, 2005. (EI: 2005189073469)
20. Hao Zhang, Ling Yu, Yange Liu, Lihui Liu, Shuzhong Yuan and Xiaoyi Dong, “Wavelength-tunable erbium-doped fiber laser with FBG and HiBi fiber loop mirror as reflectors”, Chinese Optics Letters, 2 (1): 9-11, 2004. (EI: 2004238201534)
21. Hao Zhang, Ling Yu, Shiquan Yang, Yange Liu, Lihui Liu, Chunxian Xiao, Lingyun Xiong, Shuzhong Yuan and Xiaoyi Dong, “A novel structure L-band erbium-doped fiber laser”, Acta Optica Sinica, 24 (7): 929-931, 2004. (EI: 04418404513, in Chinese)
22. Qian Wang, Hao Zhang*, Miaoling Yang, Xiao Liu, Jixuan Wu, Chen Tong, Xiaoli Shan, Wei Lin, Shaoxiang Duan, and Bo Liu, “Semi-open cavity grapefruit-microstructured-optical-fiber-based Mach-Zehnder interferometric sensor for high-sensitivity simultaneous measurement of salinity and temperature”, Optics and Laser Technology, 183: 112268, 2025. (EI: 20245117554884)
23. Qian Wang, Hao Zhang*, Miaoling Yang, Tong Chen, Wei Lin, Shaoxiang Duan, Bo Liu, and Chengkun Yang, “High-sensitivity microfluidic Mach-Zehnder interferometric salinity sensor based on C-type dual-core eccentric-hole fibers”, IEEE Sensors Journal, 24 (19): 30087-30094, 2024. (SCI: I3L0Z; EI: 20243516932549)
24. Miaosen Fan, Hao Zhang*, Xiaoli Shan, Miaoling Yang, Yuan Yao, Wei Lin, and Bo Liu, “Sensitivity enhancement at higher order exceptional point based on coupled whispering gallery modes in microstructured optical fibers”, Optics and Laser Technology, 172: 110434, 2024. (SCI: FZ1Q2; EI: 20240115321360)
25. Xiaoli Shan, Hao Zhang*, Tong Chen, Miaoling Yang, Jianyu Cai, Wei Lin, Shaoxiang Duan, and Bo Liu, “Coupled-capillary-based sensitivity-enhanced higher order exceptional point microfluidic refractive index sensor for biochemical applications”, IEEE Sensors Journal, 24 (24): 40921-40929, 2024. (SCI: P8Z8X; EI: 20244517336654)
26. Xiaoli Shan, Hao Zhang*, Tong Chen, Miaoling Yang, Yuan Yao, Wei Lin, Shaoxioang Duan, and Bo Liu, “Sensitivity-enhanced parity-time symmetric Fabry-Perot sensor for detection of gas concentration”, IEEE Sensors Journal, 24 (10): 16153-16161, 2024. (SCI: YG7W8; EI: 20241615919201)
27. Miaoling Yang, Hao Zhang*, Qian Wang, Tong Chen, Lu Sun, Wei Lin, Shaoxiang Duan, and Bo Liu, “Microstructured optical fiber sensor for detection of temperature-dependent light-induced ionic liquid molecular polarizability”, Journal of Lightwave Technology (Early Access, EI: 20244217213374)
28. Tong Chen, Hao Zhang*, Miaoling Yang, Yuan Yao, Wei Lin, Shaoxiang Duan, and Bo Liu, “Single-longitudinal-mode lasing based on enhanced scattering in eccentric-hole microstructured optical fiber resonators”, Optics and Laser Technology, 170: 110284, 2023. (SCI: Z4AJ7; EI: 20234515010513)
29. Miaoling Yang, Hao Zhang*, Yuan Yao, Wei Lin Shaoxiang Duan, and Bo Liu, “Characterization of light-sensitive refractive indices or ionic liquids based on a coreless-fiber-coupled microcavity interferometric sensor”, IEEE Sensors Journal, 23 (13): 14142-14152, 2023. (SCI: L4KI1; EI: 20232214159634)
30. Ying Liang, Hao Zhang*, Wei Lin, Bo Liu, and Haifeng Liu, “Characterization of photo-isomerization-induced refractive index response for azobenzene solution based on capillary-assisted Mach-Zehnder interferometer under 473 nm laser excitation”, Optics and Laser Technology, 151: 108045, 2022. (SCI: 1V9GR; EI: 20221111773732)
31. Ying Liang, Hao Zhang*, Tong Chen, Wei Lin, Bo Liu, Haifeng Liu, “Design of a Mach-Zehnder interferometric fiber sensing system based on PCA-assisted OAM interrogation for simultaneous measurement of refractive index and temperature”, Journal of Lightwave Technology, 40 (18): 6310-6316, 2022. (SCI: 6R2KO; EI: 20223112531075)
32. Tong Chen, Hao Zhang*, Wei Lin, Haifeng Liu, Bo Liu, “Highly sensitive refractive index sensor based on Vernier effect in coupled micro-ring resonators”, Journal of Lightwave Technology, 40 (4): 1216-1223, 2022. (SCI: YW5NV; EI: 20220811684242)
33. Miaosen Fan, Hao Zhang*, Zhonghua Gong, Yuan Yao, Wei Lin, Zehui Lu, and Bo Liu, “Non-Hermitian tunable exceptional point system based on coupled fiber-optic Fabry-Perot microcavities for broadband microwave signal generation”, Results in Physics, 39: 105784, 2022. (SCI: 5C2PA)
34. Ying Liang, Hao Zhang*, Bangcai Huang, Bo Liu, Wei Lin, Jianjun Sun, and Dongbo Wang, “Ultrahigh-sensitivity temperature sensor based on resonance coupling in liquid-infiltrated side-hole microstructured optical fibers”, Sensors and Actuators A: Physical, 334: 113358, 2022. (SCI: 0W2FJ; EI: 20220211433567)
35. Ying Liang, Hao Zhang*, Miaoling Yang, Wei Lin, Bo Liu, and Haifeng Liu, “Generation of orbital angular momentum light based on mechanically induced long-period gratings using 3D printing technique”, Optical Fiber Technology, 72: 102957, 2022. (SCI: 2E3ZJ; EI: 20222612276297)
36. Ying Liang, Hao Zhang*, Huiyi Guo, Wei Lin, and Bo Liu, “Simultaneous measurement of temperature and magnetic field based on ionic-liquid-infiltrated side-hole fibers”, Journal of Lightwave Technology, 39 (21): 7001-7007, 2021. (SCI: WN2YE)
37. Zhonghua Gong, Hao Zhang*, Miaosen Fan, Wei Lin, Bo Liu, and Haifeng Liu, “Light-controlled exceptional point sensor based on azo-functionalized whispering gallery mode microcavity”, IEEE Sensors Journal, 22 (11): 10485-10491, 2022. (SCI: 1T5TE; EI: 20221712038427)
38. Yujia Wang, Hao Zhang*, Yunxi Cui*, Shaoxiang Duan, Wei Lin, and Bo Liu, “A complementary-DNA-enhanced fiber-optic sensor based on microfiber-assisted Mach-Zehnder interferometry for biocompatible pH sensing”, Sensors and Actuators B: Chemical, 332: 129516, 2021. (SCI: QI1ZG; EI: 20210509856394)
39. Wei Lin, Hao Zhang*, Zhonghua Gong, Bo Liu, Haifeng Liu, Binbin Song, and Jixuan Wu, “Nonreciprocal morphology-dependent resonance in stacked spinning microresonators”, Journal of Lightwave Technology, 39 (8): 2443-2453, 2021. (SCI: RD4HW; EI: 20210309771497)
40. Xiangqian Hu, Hao Zhang*, Wei Lin, Yujia Wang, and Bo Liu, “Laser-controlled Fano resonance sensing based on WGM coupling in eccentric hole fibers integrated with azobenzene”, Journal of Lightwave Technology, 39 (1): 320-327, 2021. (SCI: PG1JJ; EI: 20205209673832)
41. Yujia Wang, Hao Zhang*, Shaoxiang Duan, Wei Lin, Bo Liu, and Jixuan Wu, “Label-free in-situ detection for DNA hybridization employing grapefruit-microstructured-optical-fiber-based microfluidic whispering gallery mode resonator”, IEEE Sensors Journal, 21 (7): 9148-9154, 2021. (SCI: QT4SS; EI: 20210209736177)
42. Xiangqian Hu, Hao Zhang*, Wei Lin, Ting Liu, and Bo Liu, “Light-controlled asymmetric dual-S-taper fiber interferometer integrated with ethyl orange solution under 473 nm laser illumination”, IEEE Sensors Journal, 21 (21): 24149-24156, 2021. (SCI: WO6SJ; EI: 20213810925475)
43. Zhonghua Gong, Hao Zhang*, Miaosen Fan, Wei Lin, and Bo Liu, “Design of a mid-infrared single-mode laser based on parity-time symmetry breaking in air-clad hollow-core ZBLAN fiber micro-resonator”, Journal of Optics, 23 (11): 115005, 2021. (SCI: WI9CA)
44. Xiangqian Hu, Hao Zhang*, Yujia Wang, Ying Liang, Haifeng Liu, Wei Lin, and Bo Liu, “Magnetic-ionic-liquid-integrated microfiber Mach-Zehnder interferometer for simultaneous measurement of magnetic field and temperature”, Optical Fiber Technology, 67: 102746, 2021. (SCI: WW8MP; EI: 20214511134331)
45. Ying Liang, Hao Zhang*, Wei Lin, Shanshan Li, Yuehui Wang, and Bo Liu, “Design of a magnetically tuned terahertz orbital angular momentum mode in air-clad microstructured optical fibers integrated with liquid crystals”, Optical Engineering, 60 (5): 056107, 2021. (SCI: SN6JH; EI: 20212410488460)
46. Zhonghua Gong, Hao Zhang*, Ting Liu, Bangcai Huang, Bo Liu, Jianjun Sun, and Dongbo Wang, “High-sensitive temperature sensor based on ethanol-filled elliptical-core side-hole fiber Sagnac interferometer”, Microwave and Optical Technology Letters, 63 (1): 32-38, 2021. (SCI: PC8CE; EI: 20203409061468)
47. Yujia Wang, Hao Zhang*, Real-time conformational change monitoring of G-quadruplex using capillary-based biocompatible whispering gallery mode microresonsator”, IEEE Sensors Journal, 20 (21): 12558-12564, 2020. (SCI: NY3OC)
48. Yilun Liu, Hao Zhang*, Miaosen Fan, Congzhou Liang and Jie Lei, “Bidirectional tuning of whispering gallery modes in a silica microbubble infiltrated with magnetic fluids”, Applied Optics, 59 (1): 1-8, 2020. (SCI: KB9KY; EI: 20200207984051)
49. Congzhou Liang, Hao Zhang*, Bo Liu, Haifeng Liu and Jixuan Wu, “Laser-tuned whispering gallery modes in microbottle silica resonators based on azobenzene-doped polyvinyl alcohol film”, Optical Engineering, 59 (2): 027103, 2020. (SCI: KZ6BZ; EI: 20201108290801)
50. Chengkun Yang, Hao Zhang*, Bo Liu*, Haifeng Liu, Chao Wang and Shiwei Lin, “Tuning of polarization-dependent whispering gallery modes in grapefruit microstructured optical fibers infiltrated with negative dielectric anisotropy liquid crystals”, Journal of Lightwave Technology, 37 (11): 2628-2633, 2019. (SCI: HW8IG; EI: 20182405302672)
51. Ting Liu, Hao Zhang*, Lifang Xue*, Bo Liu, Haifeng Liu, Bangcai Huang, Jianjun Sun and Dongbo Wang, “Highly sensitive torsion sensor based on side-hole-fiber Sagnac interferometer”, IEEE Sensors Journal, 19 (17): 7378-7382, 2019. (SCI: IP9OL; EI: 20193307309001)
52. Ting Liu, Hao Zhang*, Bo Liu, Xu Zhang, Haifeng Liu and Chao Wang, “Highly compact vector bending sensor with microfiber-assisted Mach-Zehnder interferometer”, IEEE Sensors Journal, 19 (9): 3343-3347, 2019. (SCI: HS8UB; EI: 20191506766911)
53. Fansheng Kong, Bin Yang, Chengkun Yang, Hao Zhang*, Bo Liu*, Haifeng Liu and Jie Yu, “Electrically tuned whispering gallery mode microresonator based on Kagome photonic crystal fibers infiltrated with nematic liquid crystals”, Applied Optics, 58 (6): 1351-1355, 2019. (SCI: HM0LA; EI: 20190806543406)
54. Chengkun Yang, Hao Zhang*, Bo Liu*, Haifeng Liu, Chao Wang and Shiwei Lin, “Electrically tuned whispering gallery modes microresonator based on microstructured optical fibers infiltrated with dual-frequency liquid crystals”, Nanophotonics, 7 (7): 1333-1340, 2018. (SCI: GK6GX; EI: 20182805532056)
55. Nanjie Xie, Hao Zhang*, Bo Liu, Haifeng Liu, Ting Liu, and Chao Wang, “In-line microfiber-assisted Mach-Zehnder interferometer for microfluidic highly sensitive measurement of salinity”, IEEE Sensors Journal, 18 (21): 8767~8772, 2018. (SCI: GW6FM; EI: 20183805820443)
56. Chengkun Yang, Hao Zhang*, Bo Liu*, Shiwei Lin, Yuetao Li and Haifeng Liu, “Electrically tunable whispering gallery mode microresonator based on a grapefruit-microstructured optical fiber infiltrated with nematic liquid crystals”, Optics Letters, 42 (15): 2988-2991, 2017. (SCI: FC6HJ; EI: 20173104013853)
57. Donglin Yan, Hao Zhang*, Bo Liu*, Bangcai Huang, Jianjun Sun and Dongbo Wang, “Optofluidic microring resonator laser based on cavity-assisted energy transfer in dye-infiltrated side-hole microstructured optical fibers”, Journal of Lightwave Technology, 35 (19): 4153-4158, 2017. (SCI: FG4QA; EI: 20173704154768)
58. Donglin Yan, Hao Zhang*, Bo Liu*, Bangcai Huang, Jianjun Sun, Dongbo Wang and Tingting Han, “A Multi-color switchable dye laser based on CAET in side-hole microstructured optical fibers”, IEEE Photonics Technology Letters, 25 (16): 1411-1414, 2017. (SCI: FB7FB; EI: 20172903952856)
59. Nanjie Xie, Hao Zhang*, Bo Liu, Binbin Song and Jixuan Wu, “Characterization of temperature-dependent refractive indices for nematic liquid crystal employing a microfiber-assisted Mach-Zehnder interferometer”, Journal of Lightwave Technology, 35 (14): 2966-2972, 2017. (SCI: EY8KT; EI: 20173504101594)
60. Nanjie Xie, Hao Zhang*, Bo Liu, Jixuan Wu, Binbin Song and Tingting Han, “Highly sensitive in-line microfluidic sensor based on microfiber-assisted Mach-Zehnder interferometer for glucose sensing”, Journal of Optics, 19 (11): 115803, 2017. (SCI: FW3GM; EI: 20174504374190)
61. Ningning Gu, Hao Zhang*, Bo Liu, Wei Lin, Binbin Song and Jixuan Wu, “All-fiber electric field sensor based on whispering-gallery-mode resonances in U-bent single-mode fibers integrated with liquid crystal”, Optical Engineering, 56 (2): 026102, 2017. (SCI: EP2IO; EI: 20170803380192)
62. Yuetao Li, Hao Zhang*, Bo Liu*, Jixuan Wu, Binbin Song, Donglin Yan and Chengkun Yang, “Tuning of whispering gallery modes in a magnetic-fluid-infiltrated silica capillary based on lateral pumping scheme”, Journal of Optics, 19 (1): 015801, 2017. (SCI: EG1BJ; EI: 20170503292619)
63. Yuetao Li, Hao Zhang*, Bo Liu*, Wei Lin, Donglin Yan, Chengkun Yang and Jixuan Wu, “Laser-tuned whispering gallery modes in a silica-based microsphere resonator integrated with ethyl-orange-doped polyvinyl alcohol coating”, Sensors and Actuators B: Chemical, 238: 98-104, 2017. (SCI: ED6EN; EI: 20164302926517)
64. Jixuan Wu, Hao Zhang*, Bo Liu*, Binbin Song, Yuetao Li, Chengkun Yang, “Acoustooptic-mode-coupling-based whispering gallery mode excitation in silica-capillary microresonator”, Journal of Lightwave Technology, 35 (2): 220-224, 2017. (SCI: EP0EA; EI: 20170803379856)
65. Haifeng Liu, Hao Zhang*, Bo Liu*, Binbin Song, Jixuan Wu and Lie Lin, “Ultra-sensitive magnetic field sensor with resolved temperature cross-sensitivity employing microfiber-assisted modal interferometer integrated with magnetic fluids”, Applied Physics Letters, 2016, 109 (4): 042402. (SCI: DT7SZ; EI: 20163202683423)
66. Binbin Song, Hao Zhang*, Bo Liu, Wei Lin and Jixuan Wu, “Label-free in-situ real-time DNA hybridization kinetics detection employing microfiber-assisted Mach-Zehnder interferometer”, Biosensors & Bioelectronics, 2016, 81: 151-158. (SCI: DK3JB; EI: 20161002054306)
67. Shouxin Kang, Hao Zhang*, Bo Liu, Wei Lin, Ning Zhang and Yinping Miao, “A fiber-optic interferometer based on non-adiabatic fiber taper and long-period fiber grating for simultaneous measurement of magnetic field and temperature”, Journal of Optics, 18 (1): 015802, 2016. (SCI: CZ6BV; EI: 20155201732948)
68. Wei Lin, Hao Zhang*, Bo Liu, Binbin Song, Yuetao Li, Chengkun Yang and Yange Liu, “Laser-tuned whispering gallery modes in a solid-core microstructured optical fibre integrated with magnetic fluids”, Scientific Reports, 5: 17791, 2015. (SCI: CX4YX)
69. Haifeng Liu, Hao Zhang*, Yinping Miao, Bo Liu, Yuetao Li, Xing Zhao and Lie Lin, “A light-intensity-controlled microfiber-assisted Mach-Zehnder interferometer based on ethyl orange solution under 532 nm laser excitation”, Sensors and Actuators B: Chemical, 216: 229-234, 2015. (SCI: CI9ZY; EI: 20151900836239)
70. Binbin Song, Hao Zhang*, Yinping Miao, Wei Lin, Jixuan Wu, Haifeng Liu, Donglin Yan and Bo Liu*, “Highly sensitive twist sensor employing Sagnac interferometer based on PM-elliptical core fibers”, Optics Express, 23 (12): 15372-15379, 2015. (SCI: CL4DJ; EI: 20161302146901)
71. Wei Lin, Hao Zhang*, Binbin Song, Yinping Miao, Bo Liu*, Donglin Yan and Yange Liu, “Magnetically controllable wavelength-division-multiplexing fiber coupler”, Optics Express, 23 (9): 11123-11134, 2015. (SCI: CH9EB; EI: 20154101369287)
72. Yinping Miao, Hao Zhang*, Jichao Lin, Binbin Song, Kailiang Zhang, Wei Lin, Bo Liu and Jianquan Yao, “Simultaneous measurement of temperature and magnetic field based on a long period grating concatenated with multimode fiber”, Applied Physics Letters, 106 (13): 132410, 2015. (SCI: CF1MT; EI: 20151500736472)
73. Shouxin Kang, Hao Zhang*, Bo Liu, Ning Zhang and Yinping Miao, “Acousto-optic fiber interferometer based on concatenated flexural wave modulation”, Optical Engineering, 54 (7): 076106, 2015. (SCI: CP3ZZ; EI: 20153001071796)
74. Chunxue Yang, Hao Zhang*, Hu Liang, Bo Liu, Yinping Miao, Xing Zhao, Junqi Guo, Qiang Li and Meng Jiang, "Light intensity sensor based on an azo-infiltrated microstructured optical fiber", IEEE Photonics Technology Letters, 26 (24): 2458-2461, 2014. (SCI: AU3NQ; EI: 20144900289251)
75. Chunxue Yang, Hao. Zhang*, Hu Liang, Yinping. Miao, Bo Liu, Zhi Wang and Yange Liu, “Selectively liquid-infiltrated microstructured optical fiber for simultaneous temperature and force measurement”, IEEE Photonics Journal, 6 (2): 6800808, 2014. (SCI: AH5YC; EI: 20141317501008)
76. Minghui Qiu, Hao Zhang*, Yinping Miao, Zhi Wang and Bo Liu, “Simultaneous excitation of acousto-optic mode coupling in a SMF-PCF hybrid configuration”, Journal of Optics, 16 (4): 045701, 2014. (SCI: AE3AU; EI: 20141517554666)
77. Hongguang Dong, Hao Zhang*, Yinping Miao, Minghui Qiu and Bo Liu, “Spectral characteristics of single-mode-fiber-based cascaded acousto-optic filters”, Journal of Optics, 16 (1): 015402, 2014.(SCI: 274RK; EI: 20140217174231)
78. Minghui Qiu, Hao Zhang*, Shouxin Kang, Yinping Miao and Bo Liu, “Acousto-optic mode coupling excited by superimposed flexural waves in a solid-core microstructured optical fiber with hexagonal air-hole array cladding”, Microwave and Optical Technology Letters, 56 (12): 2831-2835, 2014. (SCI: AQ5DN; EI: 201445159311)
79. Chunxue Yang, Hao Zhang*, Yinping Miao, Hu Liang, Xing Zhao, Zhi Wang and Bo Liu, “Load-insensitive temperature sensor based on azobenzene-chloroform-solution-filled microstructured optical fiber”, Optics Letters, 38 (24): 5426-5429, 2013.(SCI: 275UB; EI: 20135217126800
80. Shanshan Li, Hao Zhang*, Yu Hou, Jinjun Bai, Weiwei Liu and Shengjiang Chang, “Terahertz polarization splitter based on orthogonal microstructure dual-core photonic crystal fiber”, Applied Optics, 52 (14): 3305-3310, 2013. (SCI: 145DP; EI: 20132316401737)
81. Minghui Qiu, Hao Zhang*, Bo Liu, Hongguang Dong, Chunxue Yang and Yinping Miao, “Acoustic birefringence suppression in a fiber acoustic grating employing solid-core photonic crystal fiber with hexagonal air-hole array cladding”, Optical Engineering, 52 (3): 035008, 2013. (SCI: 134XB; EI: 20132916498886)
82. Hongguang Dong, Hao Zhang*, Bo Liu, Junhao Tao and Lihui Liu, “Improvement of coupling efficiency for an acoustooptic tunable filter and its prospects in sensing applications”, Sensor Letters, 10 (7): 1502-1506, 2012. (SCI: 031TA; EI: 20123715417485)
83. Bo Liu and Hao Zhang*, “Polarimetric distributed Bragg reflector fiber laser sensor array for simultaneous measurement of transverse load and temperature”, Optical Fiber Technology, 17 (6): 619-625, 2011. (SCI: 844AV; EI: 20114514500282)
84. Xiaoyi Dong, Hao Zhang*, Bo Liu and Yinping Miao, “Titled fiber Bragg gratings: principle and sensing applications”, Photonics Sensors, 1 (1): 6-30, 2011.
85. Jian Liu, Hao Zhang* and Bo Liu, “Temperature measurement based on photonic crystal modal interferometer”, Frontiers of Optoelectronics in China, 3 (4): 418-422, 2010.
86. Shaoxiang Duan, Bo Liu*, Hao Zhang*, Haifeng Liu, Wei Lin, Jixuan Wu, and Binbin Song, “Intensity-interrogated magnetic sensor based on S-tapered and multimode fiber integrated with ferrofluids”, Applied Optics, 60 (34): 10743-10749, 2021. (SCI: XG1QB; EI: 20220811695018)
87. Meiqi Li, Ye Cao*, Hao Zhang*, Wenwen Wu, Bo Liu, Ting Liu, Shaoxiang Duan, and Yange Liu, “Strain and temperature sensor based on S-taper embedded in long-period grating”, Optical Engineering, 59 (9): 097105, 2020. (SCI: OS6AG; EI: 20204209348915)
88. Wenwen Wu, Ye Cao*, Hao Zhang*, Bo Liu, Xu Zhang, Shaoxiang Duan, Ting Liu and Yange Liu, “Intensity-interrogated magnetic field sensor with resolved temperature cross sensitivity based on down-fusion taper and S-taper integrated with magnetic fluids”, Optical Engineering, 58 (7): 077102, 2019. (SCI: IS1CV; EI: 20193007218608)
89. Wenwen Wu, Ye Cao*, Hao Zhang*, Bo Liu, Xu Zhang, Shaoxiang Duan and Yange Liu, “Compact magnetic field sensor based on a magnetic-fluid-integrated fiber interferometer”, IEEE Magnetics Letters, 10: 8103605, 2019. (SCI: ID5CB; EI: 20192507070575)
90. Donglin Yan, Bo Liu*, Hao Zhang*, Yuuetao Li and Tingting Han, “Observation of lasing emission based on a hexagonal cavity embedded in a Kagome PCF”, IEEE Photonics Technology Letters, 30 (13): 1202-1205, 2018. (SCI: GJ4KL; EI: 20182205264087)
91. Jixuan Wu, Bo Liu*, Hao Zhang* and Binbin Song, “Adsorption detection for polylysine biomolecules based on high-Q silica capillary whispering gallery mode microresonator”, Measurement Science and Technology, 28 (11): 115103, 2017. (SCI: FK0YH; EI: 20174404316278)
92. Chengkun Yang, Bo Liu*, Hao Zhang*, Wei Lin, Yuetao Li, Haifeng Liu and Binbin Song, “Excitation of whispering gallery modes in silica capillary using SMF-MMF joint with lateral offset”, IEEE Photonics Technology Letters, 29 (12): 1027-1030, 2017. (SCI: EY2SI; EI: 20172703878493)
93. Donglin Yan, Bo Liu*, Hao Zhang*, Yuetao Li, Binbin Song and Jixuan Wu, “Silica-tube-based whispering gallery mode dye lasers based on different pumping schemes”, Microwave and Optical Technology Letters, Microwave and Optical Technology Letters, 59 (3): 609-614, 2017. (SCI: EK3GV; EI: 20170503294016)
94. Jixuan Wu, Bo Liu*, Hao Zhang*, Binbin Song, Wei Lin and Yuetao Li, “WGM micro-fluidic-channel based on reflection type fiber-tip-coupled hollow-core PCFs”, IEEE Photonics Technology Letters, 28 (22): 2565-2568, 2016. (SCI: EC4MY; EI: 20163902854912)
95. Shecheng Gao, Weigang Zhang*, Hao Zhang* and Chonglei Zhang, “Reconfigurable and ultra-sensitive in-line Mach-Zehnder interferometer based on the fusion of microfiber and microfluid”, Applied Physics Letters, 106 (8): 084103, 2015. (SCI: CC7KP; EI: 20151000603642)
96. Fansheng Kong, Bin Yang, Chengkun Yang, Hao Zhang*, Bo Liu*, Haifeng Liu and Jie Yu, “Electrically tuned whispering gallery mode microresonator based on Kagomé photonic crystal fibers infiltrated with nematic liquid crystals”, Applied Optics, 58 (6): 1351-1355, 2019. (SCI: HM0LA; EI: 20190806543406)
97. Yinping Miao, Jixuan Wu, Wei Lin, Kailiang Zhang, Yujie Yuan, Binbin Song, Hao Zhang* and Bo Liu, “Magnetic field tunability of optical microfiber taper integrated with ferrofluid”, Optics Express, 21 (24): 29914-29920, 2013. (SCI: 265JP; EI: 20135117096978)
98. Wei Lin, Hao Zhang, Shih-Chi Chen, Bo Liu, Yange Liu, “Microstructured optical fiber for multichannel sensing based on Fano resonance of the whispering gallery modes”, Optics Express, 25 (2): 994-1004, 2017. (SCI: EO2HY; EI: 20170403285292)
99. Shanshan Li, Hao Zhang, Jinjun Bai, Weiwei Liu and Shengjiang Chang, “Dual-porous-fiber-based low loss broadband terahertz polarization splitter”, IEEE Photonics Technology Letters, 26 (1):1399-1402, 2014. (SCI: AK3VQ; EI: 20142717892595)
100. Jianhua Luo, Hao Zhang, Bo Liu, Chenglai Jia, Shaolin Yan and Xiurong Ma, “Multi-longitudinal-mode fiber laser based displacement sensor”, Chinese Journal of Lasers, 37 (5): 1280-1283, 2010. (EI: 20102413003975, in Chinese)
101. Guoyu Li, Hao Zhang, Bo Liu, Jian Zhang, Shuzhong Yuan, Guiyun Kai and Xiaoyi Dong, “The interrogation system for FBG sensing based on the InGaAs linear image sensor”, Microwave and Optical Technology Letters, 50 (4): 1101-1104, 2008. (SCI: 275EW; EI: 20081611203915)
102. Tuan Guo, Hao Zhang, Bo Liu, Guoyu Li, Qida Zhao and Xiaoyi Dong, “Gaussian-strain-chirped fiber Bragg grating couple for temperature-insensitive and intensity-referenced force measurement”, IEEE Sensors Journal, 7 (9-10): 1390-1394, 2007. (SCI: 214MQ; EI: 20073410779018)
103. Lihui Liu, Hao Zhang, Qida Zhao, Yuliang Liu and Fang Li, “Temperature-independent FBG pressure sensor with high sensitivity”, Optical Fiber Technology, 13 (1): 78-80, 2007. (SCI: 131QZ; EI: 20065010303780)
104. Qingying Dou, Hao Zhang and Shuzhong Yuan, “A novel attenuator bans on bending loss in SMF”, Microwave and Optical Technology Letters, 48 (1): 114-118, 2006. (SCI: 994ZU; EI: 2006149795148)
105. Jiahui Wang, Wei Lin, Hao Zhang, HU Liang, Shaoxiang Duan, Yuan Yao, and Bo Liu, “High-fidelity decryption technology for visual cryptography based on incoherent optical polarization XNOR operation”, Optics Express, 32 (20): 34172-34183, 2024. (SCI: I0A3B; EI: 20244017125771)
106. Miaoling Yang, Yuan Yao, Hao Zhang, Wei Lin, Shaoxiang Duan, and Bo Liu, “Characterization of laser-induced optothermal effect in magnetic fluids based on a coreless-fiber-coupled microcavity and Mach-Zehnder interferometric sensor”, Optics and Laser Technology, 163: 109310, 2023. (SCI: J0VM3; EI: 20231113730112)
107. Miaoling Yang, Yuan Yao, Hao Zhang, Xiangqian Hu, Wei Lin, Bo Liu, and Haifeng Liu, “In-line microfluidic sensor based on dual S-taper fiber interferometer for measurement of glucose concentration”, Optical Engineering, 61 (7): 077101, 2022. (SCI: 3L6GH; EI: 20223212545181)
108. Bo Wang, Shaoxiang Duan, Hao Zhang, Haijin Xu, Bo Liu, and Mingqiang Qiao, “A label-free lateral offset spliced coreless fiber MZI biosensor based on hydrophobin HGFI for TNF-alpha detection”, Optoelectronics Letters, 18 (5): 263-268, 2022. (EI: 20222312203050)
109. Yuan Yao, Bo Liu, Hao Zhang, Haifeng Liu, and Jianguo Liu, “Design of thin-film lithium niobate structure for integrated filtering and sensing applications”, Results in Physics, 17: 103082, 2020. (SCI: MK3PY)
110. Xu Zhang, Bo Liu, Hao Zhang, Xu Zhang, Binbin Song, Jixuan Wu and Shaoxiang Duan, “Label-free detection of DNA hybridization utilizing dual S-tapered thin-core fiber interferometer”, Journal of Lightwave Technology, 37 (11): 2762-2767, 2019. (SCI: HW8IG; EI: 20183405722304)
111. Xu Zhang, Bo Liu, Hao Zhang, Jixuan Wu, Binbin Song and Chao Wang, “A magnetic field sensor based on a dual S-tapered multimode fiber interferometer”, Measurement Science and Technology, 29 (7): 075103, 2018. (SCI: GH1RJ; EI: 20182605372293)
112. Wei Lin, Bo Liu, Hao Zhang, Binbin Song, Donglin Yan, Yinping Miao, Haifeng Liu and Yange Liu, “Laser-induced thermal effect for tunable filter employing ferrofluid and fiber taper coupler”, IEEE Photonics Technology Letters, 27 (22): 2339-2342, 2015. (SCI: CS8TH; EI: 20161002047621)
113. Shecheng Gao, Weigang Zhang, Hao Zhang, Pengcheng Geng, Wei Lin, Bo Liu, Zhiyong Bai and Xiaolin Xue, “Fiber modal interferometer with embedded fiber Bragg grating for simultaneous measurements of refractive index and temperature”, Sensors and Actuators B: Chemical, 188: 931-936, 2013. (SCI: 243VE; EI: 20133616708383)
114. Wei Lin, Yinping Miao, Hao Zhang, Bo Liu, Yange Liu and Binbin Song, “Fiber-optic in-line magnetic field sensor based on the magnetic fluid and multimode interference effects”, Applied Physics Letters, 103 (15): 151101, 2013. (SCI: 236FD; EI: 20134316895411)
115. Wei Lin, Yinping Miao, Hao Zhang, Bo Liu, Yange Liu, Binbin Song and Jixuan Wu, “Two-dimensional magnetic fiber vector sensor based on tilted fiber Bragg grating and magnetic fluid’, Journal of Lightwave Technology, 31 (15): 2599-2604, 2013. (SCI: 187LE; EI: 20133316599727)
116. Xiaolin Xue, Weigang Zhang, Hao Zhang, Shecheng Gao, Pengcheng Geng, Zhiyong Bai and Jieliang Li, “Simultaneous measurement of temperature and refractive index using a simplified modal interferometer composed of tilted long-period fiber grating and fiber bitaper”, Measurement Science and Technology, 24 (6): 065103, 2013. (SCI: 148SN; EI: 20132216386996)
117. Pengcheng Geng, Weigang Zhang, Hao Zhang, Shanshan Zhang, Juan Ruan, Shilei Wei and Xiaolin Xue, “Design of broadband single-polarization single-mode photonic crystal fiber based on index-matching coupling”, IEEE Photonics Technology Letters, 24 (6): 452-454, 2012. (SCI: 896OW; EI: 20120914822577)
118. Yu Hou, Fei Fan, Hao Zhang, Xianghui Wang and Shengjiang Chang, “Terahertz single-polarization single-mode hollow-core fiber based on index-matching coupling”, IEEE Photonics Technology Letters, 24 (8): 637-639, 2012. (SCI: 917XB; EI: 20121414925469)
119. Juan Ruan, Weigang Zhang, Hao Zhang, Limei Yin, X. L. Li, Pengcheng Geng and Xiaolin Xue, “Temperature and twist characteristics of cascaded long-period fiber gratings written in polarization-maintaining fibers”, Journal of Optics, 14 (10): 105403, 2012. (SCI: 202MB; EI: 20124215565652)
120. Yan Liu, Bo Liu, Hao Zhang and Yinping Miao, “Characteristics of long period gratings inscribed in microstructured optical fiber filled with Fe3O4 nanoparticle fluid”, Sensor Letters, 10 (7): 1432-1435, 2012. (SCI: 031TA; EI: 20123715417469)
121. Bo Liu, Jinjie Chen, Hao Zhang and Xiaoyi Dong, “Research on fiber-grating-based wireless sensor networks”, Photonic Sensors, 2 (2): 166-172, 2012.
122. Bo Liu, Chenglai Jia, Hao Zhang and Jianhua Luo, “DBR-fiber-laser-based active temperature sensor and its applications in the measurement of fiber birefringence”, Microwave and Optical Technology Letters, 52 (1):41-44, 2010. (SCI: 531DO; EI: 20100112608788)
123. Jianhua Luo, Bo Liu, Hao Zhang, Shaolin Yan, Xiurong Ma and Chenglai Jia, “Microwave signal generation based on two single-longitudinal-mode erbium-doped fiber lasers”, Microwave and Optical Technology Letters, 52 (1): 177-179, 2010. (SCI: 531DO; EI: 20100112608827)
124. Bo Liu, Chenglai Jia, Hao Zhang and Jianhua Luo, “Investigation of DBR fiber laser sensing based on beat frequency interrogation and its networking technique”, Journal of Optoelectronics Laser, 21 (11): 1614-1617, 2010. (EI: 20105013489489, in Chinese)
125. Wei Xi, Zhiliang Fang, Hao Zhang, Hongchao Wu and Guoguang Mu, “Acquisition of digitized multi-spectral image based on a 4-channel spatial modulator”, Journal of Optoelectronics, 19 (2): 249-252, 2008. (EI: 20081211162043, in Chinese)
126. Jing Sun, Xiurong Ma, Hao Zhang, Jianhua Luo and Qing Ji, “Short-cavity single-longitudinal-mode dual-wavelength fiber laser and its linewidth measurement”, Journal of Optoelectronics Laser, 21 (SUPPL.): 15-17, 2010. (EI: 20110813685215, in Chinese)
127. Yinping Miao, Bo Liu, Hao Zhang, Yuan Li, Haibin Zhou, Hua Sun, Weihua Zhang and Qida Zhao, “Relative humidity sensor based on tilted fiber Bragg grating with polyvinyl alcohol coating”, IEEE Photonics Technology Letters, 21 (7): 441-443, 2009. (SCI: 445MK; EI: 20091612037985)
128. Tuan Guo, Bo Liu, Hao Zhang, Qida Zhao and Xiaoyi Dong, “Linear and Gaussian chirped fiber Bragg grating and its applications in fiber-optic filtering and sensing system”, IEEE Photonics Technology Letters, 19 (13-16): 1096-1098, 2007. (SCI: 199BQ; EI: 20072910703521)
129. Guoyu Li, Tuan Guo, Hao Zhang, Hongwei Gao, Jian Zhang, Bo Liu, Shuzhong Yuan, Guiyun Kai and Xiaoyi Dong, “Fiber grating sensing interrogation based on an InGaAs photodiode array”, Applied Optics, 46 (3): 283-286, 2007. (SCI: 126YH; EI: 20071010465714)
130. Tuan Guo, Qida Zhao, Hao Zhang, Chunshu Zhang, Guiling Huang, Lifang Xue and Xiaoyi Dong, “Temperature-insensitive fiber Bragg grating dynamic pressure sensing system”, Optics Letters, 31 (15): 2269-2271, 2006. (SCI: 065QB; EI: 20063810124654)
131. Tuan Guo, Qida Zhao, Hao Zhang, Lifang Xue, Guoyu Li, Bo Dong, Bo Liu, Weigang Zhang, Guiyun Kai and Xiaoyi Dong, “Temperature-insensitive fiber Bragg grating force sensor via a bandwidth modulation and optical-power detection technique”, Journal of Lightwave Technology, 24 (10): 3797-3802, 2006. (SCI: 098SI; EI: 20064310201708)
132. Long Jin, Weigang Zhang, Hao Zhang, Bo Liu, H Zhao, Qinchang Tu, Guiyun Kai and Xiaoyi Dong, “An embedded FBG sensor for simultaneous measurement of stress and temperature”, IEEE Photonics Technology Letters, 18 (1-4): 154-156, 2006. (SCI: 020HL; EI: 20071510545939)
133. Xinhuan Feng, Yange Liu, Hao Zhang, Yao Li, Shuzhong Yuan, Guiyun Kai, Weigang Zhang and Xiaoyi Dong, “Wide wavelength-switched optical-pulse generation in an L-band mode-locked erbium-doped fiber laser”, Microwave and Optical Technology Letters, 44 (2): 196-199, 2005. (SCI: 882RB; EI: 2005058818723)
134. Shicheng Hu, Feng Liu, Binbin Song, Hao Zhang, Wei Lin, Bo Liu, Shaoxiang Duan, and Yuan Yao, “Multimode fiber image reconstruction based on parallel neural network with small training set under wide temperature variations”, Optics and Laser Technology, 175: 110815, 2024. (SCI: OL7K6; EI: 20241115738125)
135. Wei Lin, Shiyu Zhang, Bo Liu, Hao Zhang, Haifeng Liu, Junyuan Han, and Feng Liu, “Optical trapping and manipulation of massive particles based on spatial diffraction of a 45 titled fiber Bragg gating”, Optics Express, 30 (26): 46106-46120, 2022. (SCI: 7X5KT; EI: 20225113260074)
136. Zhenhong Wang, Ruijing He, Yange Liu, Hao Zhang, Simeng Han, Hongye Li, Guangdou Wang, Guang Yang and Zhi Wang, “Generation of trapezoidal envelope pulses and soliton rains from passively mode-locked fiber laser with MoS2 saturable absorber on microfiber”, Applied Physics Letters, 11 (7): 072504, 2018. (SCI: GL0SV; EI: 20182605382757)
137. Hu Liang, Yange Liu, Hongye Li, Hao Zhang, Simeng Han, Yonghua Wu and Zhi Wang, “All-fiber light intensity detector based on an ionic-liquid-adorned microstructured optical fiber”, IEEE Photonics Journal, 10 (2): 7102202, 2018. (SCI: GD7RX; EI: 20181404983072)
138. Jixuan Wu, Xu Zhang, Bo Liu, Hao Zhang and Binbin Song, “Square-microfiber-integrated biosensor for label-free DNA hybridization detection”, Sensors and Actuators B: Chemical, 252: 1125-1131, 2017. (SCI: FE5UT; EI: 20173104012319)
139. Yinping Miao, Yong He, Xixi Ma, Hao Zhang, Binbin Song, Xiaoping Yang, Lifang Xue, Bo Liu and Jianquan Yao, “Low-temperature cross-sensitivity refractive index sensor based on single-mode fiber with periodically modulated taper”, IEEE Sensors Journal, 16 (8): 2442-2446, 2016. (SCI: DG9QO; EI: 20161402203249)
140. Wei Lin, Binbin Song, Yinping Miao, Hao Zhang, Donglin Yan, Bo Liu and Yange Liu, “Liquid-filled photonic-crystal-fiber-based multimodal interferometer for simultaneous measurement of temperature and force”, Applied Optics, 54 (6): 1309-1313, 2015. (SCI: CB5RR; EI: 20153801287917)
141. Wei Lin, Yinping Miao, Binbin Song, Hao Zhang, Bo Liu, Yange Liu and Donglin Yan, ”Multimodal transmission property in a liquid-filled photonic crystal fiber”, Optics Communications, 336: 14-19, 2015. (SCI: AU6BS; EI: 20144500156150)
142. Zhiyong Bai, Weigang Zhang, Shecheng Gao, Hao Zhang, Li Wang and Gang Liu, “Bend-insensitive long period grating-based high temperature sensor”, Optical Fiber Technology, 21: 110-114, 2015. (SCI: AX0MD; EI: 20145200358261)
143. Binbin Song, Yinping Miao, Wei Lin, Hao Zhang, Bo Liu, Jixuan Wu, Haifeng Liu and Donglin Yan, “Loss-based magnetic field sensor employing hollow core fiber and magnetic fluid”, IEEE Photonics Technology Letters, 26 (22): 2283-2286, 2014. (SCI: AS7WG; EI: 20144500177208)
144. Lei Chen, Weigang Zhang, Li Wang, Hao Zhang, Jonathan Sieg, Quan Zhou, Liyu Zhang, Biao Wang and Tieyi Yan, “In-fiber torsion sensor based on dual polarized Mach-Zehnder interference”, Optics Express, 22 (26): 31654-31664, 2014. (SCI: AX8SR; EI: 20150200407089)
145. Binbin Song, Yinping Miao, Wei Lin, Hao Zhang, Bo Liu, Jixuan Wu, Haifeng Liu and Donglin Yan, “Loss-based magnetic field sensor employing hollow core fiber and magnetic field”, IEEE Photonics Technology Letters, 26 (22): 2283-2286, 2014. (SCI: AS7WG; EI: 201445177208)
146. Shecheng Gao, Weigang Zhang, Zhiyong Bai, Hao Zhang, Wei Lin, Li Wang and Jieliang Li, “Microfiber-enabled in-line Fabry-Perot interferometer for high-sensitive force and refractive index sensing”, Journal of Lightwave Technology, 32 (9): 1682-1688, 2014. (SCI: AF4FT; EI: 20141617589923)
147. Zhiyong Bai, Weigang Zhang, Shecheng Gao, Hao Zhang, Li Wang, Yongji Liu and Tieyi Yan, “Simultaneous measurement of strain and temperature using a long period fiber grating based on waist-enlarged fusion bitapers”, Journal of Optics, 16 (4): 045401, 2014. (SCI: AE3AU; EI: 20141517554662)
148. Binbin Song, Yinping Miao, Wei Lin, Hao Zhang, Jixuan Wu and Bo Liu, “Multi-mode interferometer-based twist sensor with low temperature sensitivity employing square coreless fibers”, Optics Express, 21 (22): 26806-26811, 2013. (SCI: 252LZ; EI: 20134716995156)
149. Zhiquan Cui, Weigang Zhang, Fang Liu, Hao Zhang, Zhiyong Bai, Pengcheng Ge and Shecheng Gao, “Asymmetrically corrugated long-period gratings by burning fiber coating and etching cladding”, IEEE Photonics Technology Letters, 25 (20): 1961-1964, 2013. (SCI: 224KJ; EI: 20134016802498)
150. Shecheng Gao, Weigang Zhang, Zhiyong Bai, Hao Zhang, Pengcheng Geng, Wei Lin and Jieliang Li, “Ultrasensitive refractive index sensor based on microfiber-assisted U-shape cavity”, IEEE Photonics Technology Letters, 25 (18): 1815-1818, 2013. (SCI: 217CY; EI: 20133816754282)
151. Yinping Miao, Bo Liu, Kailiang Zhang, Hao Zhang, Ran Wang, Yan Liu and Jianquan Yao, “Magneto-optical tunability of magnetic fluid infiltrated microstructured optical fiber”, Optics and Laser Technology, 48: 280-284, 2013. (SCI : 137RA ; EI : 20130215876978)
152. Pengcheng Geng, Weigang Zhang, Shecheng Gao, Hao Zhang, Jieliang Li, Shanshan Zhang, Zhiyong Bai and Li Wang, “Two-dimensional bending vector sensing based on spatial cascaded orthogonal long period fiber”, Optics Express, 20 (27): 28557-28562, 2012. (SCI: 089LG; EI: 20130215899098)
153. Yan Liu, Bo Liu, Yinping Miao, Hao Zhang and Jian Liu, “Effect of bending and orientation on the fiber modal Mach-Zehnder interferometer”, Microwave and Optical Technology Letters, 54 (1): 136-139, 2012. (SCI: 859FC; EI: 20114814558149)
154. Jiabin Shang, Weigang Zhang, Shilei Wei, and Hao Zhang, “Two-channel fiber microcavity strain sensor based on fiber loop ring-down spectroscopy”, Microwave and Optical Technology Letters, 54 (5): 1305-1309, 2012. (SCI: 907QA; EI: 20121414913730)
155. Qing Ji, Xiurong Ma, Jing Sun, Hao Zhang and Ying Yao, “Novel method for measurement of effective cavity length of DBR fiber”, Chinese Optics Letters, 8 (4): 398-400, 2010. (EI: 20102212974289)
156. Jing Sun, Xiurong Ma, Qing Ji, Hao Zhang and Jianhua Luo, “Study on a novel low-noise erbium-doped fiber amplifier”, Journal of Optoelectronics Laser, 21 (11): 1638-1640, 2010 (EI: 20105013489495, in Chinese)
157. Long Jin, Weigang Zhang, Jie Li, Hao Zhang, Bo Liu, Qingchang Tu, Guiyun Kai and Xiaoyi Dong, “Two-dimensional bend sensing with a cantilever-mounted FBG”, Measurement Science and Technology, 17 (1): 168-172, 2006. (SCI: 007FI; EI: 2005529612773)
158. Guoyu Li, Qingying Dou, Yange Liu, Hao Zhang, Jian Zhang, Shuzhong Yuan and Xiaoyi Dong, “Optical automatic gain-clamped erbium-doped fiber amplifier based on a high birefringence fiber Bragg grating”, Acta Optica Sinica, 26 (9): 1308-1312, 2006. (EI: 20064510226499, in Chinese)
159. Tuan Guo, Qida Zhao, Qingying Dou, Hao Zhang, Lifang Xue, Guiling Huang and Xiaoyi Dong, “Temperature-insensitive fiber Bragg grating liquid-level sensor based on bending cantilever beam”, IEEE Photonics Technology Letters, 17 (11): 2400-2402, 2005. (SCI: 978UI; EI: 2005469482041)
160. Hongwei Gao, Hongmin Li, Bo Liu, Hao Zhang, Jianhua Luo, Ye Cao, Shuzhong Yuan, Weigang Zhang, Guiyun Kai and Xiaoyi Dong, “A novel fiber Bragg grating sensors multiplexing technique”, Optics Communications, 251 (4-6): 361-366, 2005. (SCI: 943KZ; EI: 2005269187388)
161. Lihui Liu, Qida Zhao, Guang Zhou, Hao Zhang, Shaohua Chen, Luming Zhao, Ying Yao, Peng Guo and Xiaoyi Dong, “Study on an optical filter constituted by concatenated Hi-Bi fiber loop mirrors”, Microwave and Optical Technology Letters, 43 (1): 23-26, 2004. (SCI: 849MO; EI: 2004408385315)
162. Hongyun Meng, Weiqing Gao, Yange Liu, Hao Zhang, Chunliu Zhao, Shuzhong Yuan, Xiaoyi Dong and Songhao Liu, “The gain and noise figure improvement of reflection L-band erbium-doped fiber amplifier”, Optics Communications, 228 (1-3): 85-89, 2003. (SCI: 743RA; EI: 2003467727187)
163. Hongyun Meng, Yange Liu, Weiqing Gao, Hao Zhang, Shuzhong Yuan and Xiaoyi Dong, “Reflection L-band erbium-doped fiber-amplifier-based on a fiber-loop mirror”, Microwave and Optical Technology Letters, 36 (6): 501-503, 2003. (SCI: 651AK; EI: 2003137418426)
164. Meng Guo, Yifan Wang, Yuan Yao, Shaoxiang Duan, Hao Zhang, Wei Lin, and Bo Liu, “Experimental demonstration of SNSPD-based free space optical communication with a high extinction ratio modulator”, Optics Communications, 550: 129998, 2024. (SCI: HK2U9; EI: 20234014836815)
165. Lingyi Xiong, Shaoxiang Duan, Wenyu Wang, Yuan Yao, Hao Zhang, Bo Liu, Wei Lin, Haifeng Liu, Jixuan Wu, Lan Lu, Xu Zhang, “ZIF-8 functionalized S-tapered fiber-optic sensor for polystyrene nanoparticles detection by electrostatic adsorption”, Talanta, 275: 126168, 2024. (SCI: SQ3W1; EI: 20241816011349)
166. Yifan Wang, Meng Guo, Xishan Jia, Yuan Yao, Hao Zhang, Bo Liu, Shaoxiang Duan, Haifeng Liu, and Wei Lin, “Performance of a superconducting nanowire single-photon detectors-based bi-directional communication system at ultra-low received optical power”, Optical Engineering, 63 (1): 018104. (SCI: GY0P7; EI: 20240715537031)
167. Yifan Wang, Meng Guo, Zehui Lu, Yuan Yao, Hao Zhang, Bo Liu, Shaoxiang Duan, Haifeng Liu, and Wei Lin, “Pattern effect suppression of pulse signals based on pre-signal control method”, Journal of Optics, 26 (4): 045703, 2024. (SCI: KM5D1; EI: 20241115735179)
168. Yuefeng Cai, Haifeng Liu, Bo Liu, Wei Lin, Hao Zhang, Zehui Lu, and Yuanzhe Qiao, “All-optical power equalization for mitigating scintillation under atmospheric turbulence”, Optics communications, 522: 128657, 2022. (SCI: 4Y8CD; EI: 20222712319070)
169. Yuefeng Cai, Haifeng Liu, Bo Liu, Wei Lin, Hao Zhang, and Yuanzhe Qiao, “Performance degradation and recovery of irradiated spaceborne fiber amplifier”, Applied Optics, 61 (4): 995-1000, 2022. (SCI: YR1ZB; EI: 20220511555101)
170. Shicheng Hu, Haifeng Liu, Bo Liu, Wei Lin, Hao Zhang, Binbin Song, and Jixuan Wu, “Self-temperature compensation approach for fiber specklegram magnetic field sensor based on polarization specklegram analysis”, Measurement Science and Technology, 33 (11): 115101, 2022. (SCI: 3M9ON; EI: 20223412598607)
171. Zhenfeng Guo, Zehui Lu, Sensen Meng, Wei Lin, Hao Zhang, Bo Liu, Haifeng Liu, and Yuan Yao, “Analog transmission of time-frequency signal in atmospheric turbulence environement”, Optics Express, 30 (19): 34077-34091, 2022. (SCI: 5F8AO; EI: 20223712736174)
172. Baoluo Yan, Zehui Lu, Jinyao Hu, Tianxu, Xu, Hao Zhang, Wei Lin, Yang Yue, Haifeng Liu, and Bo Liu, “Orbital angular momentum (OAM) carried by asymmetric vortex beams for wireless communications: theory, experiment and current challenges”, IEEE Journal of Selected Topics in Quantum Electronics, 27 (2): 7600310, 2021. (SCI: MY7FE; EI: 20202808916643)
173. Wei Lin, Bo Liu, Haifeng Liu, Chengkun Yang, and Hao Zhang, “Fibre-optic salinity sensor based on multimode fibre specklegram analysis”, Measurement Science and Technology, 32 (11): 2021. (SCI: TL2SP; EI: 20213110713056)
174. Yiwen Zhang, Yongxiong Ren, Zhi Wang, Bo Liu, Hao Zhang, Si-Ao Li, Yuxi Fang, Hao Huang, Chanjing Bao, Zhongqi Pan and Yang Yue, “Eye diagram measurement-based joint modulation format, OSNR, ROF, and skew monitoring of coherent channel using deep learning”, Journal of Lightwave Technology, 37 (23): 5907-5913, 2019. (SCI: KE0ED; EI: 20200308029690)
175. Yuan Yao, Haifeng Liu, Lifang Xue, Bo Liu and Hao Zhang, “Design of lithium niobate phase-shifted Bragg grating for electro-optically tunable ultra-narrow bandwidth filtering”, Applied Optics, 58 (25): 6770-6774, 2019. (SCI: IV1BQ; EI: 20193607391548)
176. Baoluo Yan, Haifeng Liu, Bo Liu, Jianguo Liu, Hao Zhang, Chengkun Yang, Zonghua Hu and Xiaolong Li, “EDFA anti-irradiation schemes for inter-satellite optical DPSK communication systems”, IEEE Photonics Journal, 11 (3): 4900711, 2019. (SCI: ID5BL; EI: 20192507069247)
177. Zhenhong Wang, Zhi Wang, Yange Liu, Wenjing Zhao, Hao Zhang, Shangcheng Wang, Guang Yang and Ruijing He, “Q-switched soliton bunches and noise-like pulses generation in a partially mode-locked fiber laser”, Optics Express, 24 (13): 14709-14716, 2016. (SCI: DT8RF; EI: 20162802586956)
178. Yinping Miao, Xixi Ma, Yong He, Hongmin Zhang, Hao Zhang, Binbin Song, Bo Liu and Jianquan Yao, “Low-temperature-sensitive relative humidity sensor based on tapered square no-core fiber coated with SiO2 nanoparticles”, Optical Fiber Technology, 29: 59-64, 2016. (SCI: DL8AC; EI: 20161202140930)
179. Yinping Miao, Xixi Ma, Jixuan Wu, Binbin Song, Hao Zhang, Bo Liu and Jianquan Yao, “Photonic crystal fiber modal interferometer based on thin-core-fiber mode exciter”, Applied Optics, 54 (32): 9415-9418, 2015. (SCI: CV7MC)
180. Yinping Miao, Xixi Ma, Jixuan Wu, Binbin Song, Hao Zhang, Kailiang Zhang, Bo Liu and Jianquan Yao, “Low-temperature cross-talk magnetic-field sensor based on tapered all-solid waveguide-array fiber and magnetic fluids”, Optics Letters, 40 (16): 3905-3908, 2015. (SCI: CP2SQ; EI: 20154101345615)
181. Haifeng Liu, Yinping Miao, Bo Liu, Wei Lin, Hao Zhang, Binbin Song, Mengdi Huang and Lie Lin, “Relative humidity sensor based on S-taper fiber coated with SiO2 nanoparticles”, IEEE Sensors Journal, 15 (6): 3424-3428, 2015. (SCI: CI7OV; EI: 20152200898643)
182. Jixuan Wu, Yinping Miao, Binbin Song, Wei Lin, Hao Zhang, Kailiang Zhang, Bo Liu and Jianquan Yao, "Low temperature sensitive intensity-interrogated magnetic field sensor based on modal interference in thin-core fiber and magnetic fluid", Applied Physics Letters, 104, 252402, 2014. (SCI: AK6CQ; EI: 20163002648807)
183. Yinping Miao, Jixuan Wu, Wei Lin, Binbin Song, Hao Zhang, Kailiang Zhang, Bo Liu and Jianquan Yao, “Magnetic field tunability of square tapered no-core fibers based on magnetic fluid”, Journal of Lightwave Technology, 32 (23): 4600-4605, 2014. (SCI: AS9WM; EI: 201445174569)
184. Yinping Miao, Kailiang Zhang, Bo Liu, Wei Lin, Hao Zhang, Ying Lu and Jianquan Yao, “Ferrofluid-infiltrated microstructured optical fiber long-period grating”, IEEE Photonics Technology Letters, 25 (3): 306-309, 2013. (SCI: 079MV; EI: 20130615984994)
185. Zhiyong Bai, Weigang Zhang, Shecheng Gao, Pengcheng Geng, Hao Zhang, Jieliang Li and Fang Liu, “Compact long period grating based on periodic micro-core-offset”, IEEE Photonics Technology Letters, 25 (21): 2111-2114, 2013. (SCI: 236PR; EI: 20134316902428)
186. Yinping Miao, Kailiang Zhang, Yujie Yuan, Bo Liu, Hao Zhang, Yan Liu and Jianquan Yao, “Agarose gel-coated LPG based on two sensing mechanisms for relative humidity measurement”, Applied Optics, 52 (1): 90-95, 2013. (SCI: 073LZ; EI: 20130215894951)
187. Pengcheng Geng, Weigang Zhang, Shecheng Gao, Shanshan Zhang, Hao Zhang and Juan Ruan, “Orthogonal single-polarization single-core photonic crystal fiber for wavelength splitting”, IEEE Photonics Technology Letters, 24 (15): 1304-1306, 2012. (SCI: 967HY; EI: 20122815226581)
188. Shecheng Gao, Weigang Zhang, Pengcheng Geng, Xiaolin Xue, Hao Zhang and Zhiyong Bai, “Highly sensitive in-fiber refractive index sensor based on down-bitaper seeded up-bitaper pair”, IEEE Photonics Technology Letters, 24 (20): 1878-1881, 2012. (SCI: 017PE; EI: 20124115547070)
189. Yinping Miao, Bo Liu, Kailiang Zhang, Yan Liu and Hao Zhang, “Temperature tunability of photonic crystal fiber with Fe3O4 nanoparticle fluid”, Applied Physics Letters, 98 (2): 021103, 2011. (SCI: 709VZ; EI: 20110413617166)
190. Luming Zhao, Qida Zhao, Jin Zhou, Shuang Tian and Hao Zhang, “Two-dimensional multi-channel acousto-optic diffraction”, Ultrasonics, 50 (4-5): 512-516, 2010. (SCI: 554PI; EI: 20100612697772)
191. Qing Shi, Zhi Wang, Long Jin, Yuan Li, Hao Zhang, Fuyun Lu, Guiyun Kai and Xiaoyi Dong, “A hollow-core photonic crystal fiber cavity based multiplexed Fabry-Perot interferometric strain sensor system”, IEEE Photonics Technology Letters, 20 (13-16): 1329-1331, 2008. (SCI: 338KE; EI: 20083211441373)
192. Xiurong Ma, Guiyun Kai, Zhifang Wu, Honglei Guo, Hao Zhang, Yange Liu, Shuzhong Yuan and Xiaoyi Dong, “Polarization-independent all-fibre comb filter with dynamically halved channel spacing”, Chinese Physics Letters, 22 (5): 1159-1161, 2005. (SCI: 927OF)
193. Yu Yan, Qida Zhao, Shaohua Chen, Lihui Liu, Hao Zhang and Xiaoyi Dong, “A novel variable optical attenuator and temperature sensor based on high-birefringence fiber-loop mirror”, Microwave and Optical Technology Letters, 44 (3): 259-261, 2005. (SCI: 888CB; EI: 2005068832773)
194. Yu Yan, Qida Zhao, Shaohua Chen, Lihui Liu, Hao Zhang, Guiling Huang, Shiyu Gao and Xiaoyi Dong, “A novel temperature sensor and variable optical attenuator based on a high-birefringence fiber loop mirror”, Technical Physics Letters, 31 (4): 290-292, 2005. (SCI: 922VE; EI: 2005068832773)
195. Shicheng Hu, Wei Lin, Zhendi Jiang, Bo Liu, Yuan Yao, and Hao Zhang, “Image camouflage and encryption scheme employing multimode fibers specklegram and polarization multiplxing technology”, Optics Communications, 547: 129833, 2023. (SCI: R8PW3; EI: 20233514660650)
196. Jixuan Wu, Bo Wang, Binbin Song, Mingqiang Qiao, Bo Liu, Hao Zhang, Wei Lin, and Shaoxiang Duan, “Bioimmunoassay based on hydrophobin HGFI self-assembled whispering gallery mode optofluidic microresonator”, Sensors and Actuators A: Physical, 319: 112545, 2021. (SCI: UK1PJ; EI: 20210309783445)
197. Shaoxiang Duan, Bo Wang, Mingqiang Qiao, Xu Zhang, Bo Liu, Hao Zhang, Binbin Song and Jixuan Wu, “Hydrophobin HGFI-based fibre-optic biosensor for detection of antigen-antibody interaction”, Nanophotonics, 9 (1): 177-186, 2020. (SCI: KD6XR; EI: 20195007824319)
198. Yuan Yao, Jiaqing Hou, Haifeng Liu, Ailing Zhang, Bo Liu, Hao Zhang and Jianguo Liu, “Design of programmable multi-wavelength tunable filter on lithium niobate”, Results in Physics, 15: 102741, 2019. (SCI: JV5FQ)
199. Baoluo Yan, Haifeng Liu, Bo Liu, Wei Lin, Jianguo Liu, Hao Zhang, Changjin Li, Xiaolong Li and Yujia Wang, “Noise suppression of erbium-ytterbium co-doped fiber amplifier through annealing effects”, Applied Optics, 58 (32): 8719-8725, 2019. (SCI: JM4CA; EI: 20194507645893)
200. Fei Fan, Xuanzhou Zhang, Shanshan Li, Decai Deng, Ning Wang and Hao Zhang, “Terahertz transmission and sensing properties of microstructured PMMA tube waveguide”, Optics Express, 23 (21): 27204-27212, 2015. (SCI: CY7FR; EI: 20160601907116)
201. Yinping Miao, Xixi Ma, Jichao Lin, Binbin Song, Wei Lin, Hao Zhang, Bo Liu and Jianquan Yao, “Intensity-based magnetic field measurement employing tilted long-period fiber gratings”, Journal of Optics, 17 (10): 105609, 2015. (SCI: CY1JE; EI: 20154701591768)
202. Jixuan Wu, Yinping Miao, Binbin Song, Wei Lin, Kailiang Zhang, Hao Zhang, Bo Liu and Jianquan Yao, “Simultaneous measurement of displacement and temperature based on thin-core fiber modal interferometer”, Optics Communications, 340: 136-140, 2015. (SCI: AZ5JX; EI: 20145300386713)
203. Jixuan Wu, Yinping Miao, Wei Lin, Kailiang Zhang, Binbin Song, Hao Zhang, Bo Liu and JianqunYao, “Dual-direction magnetic field sensor based on core-offset microfiber and ferrofluid”, IEEE Photonics Technology Letters, 26 (15): 1581-1584, 2014. (SCI: AM9MA; EI: 20143117998434)
204. Jixuan Wu, Yinping Miao, Wei Lin, Binbin Song, Kailiang Zhang, Hao Zhang, Bo Liu and Jianquan Yao, “Magnetic-field sensor based on core-offset tapered optical fiber and magnetic fluid”, Journal of Optics, 16 (7): 075705, 2014. (SCI: AK9PO; EI: 20142817921775)
205. Jixuan Wu, Yinping Miao, Binbin Song, Kailiang Zhang, Wei Lin, Hao Zhang, Bo Liu and Jianquan Yao, “Temperature-insensitive optical fiber refractometer based on multimode interference in two cascaded no-core square fibers”, Applied Optics, 53 (22): 5037-5041, 2014. (SCI: AN8BC; EI: 201432002756)
206. Tuan Guo, J. Yang, Qida Zhao, Guiling Huang, Lifang Xue, Hao Zhang and Xiaoyi Dong, “Temperature-immune and intensity-referenced pressure sensor based on strain-induced quadratic-chirped fibre Bragg grating”, Electronics Letters, 43 (2): 90-92, 2007. (SCI: 194AW; EI: 20070610409598)
207. Xiurong Ma, Zhifang Wu, Guiyun Kai, Yange Liu, Lihui Liu, Hao Zhang, Shuzhong Yuan and Xiaoyi Dong, “Polarization-independent all-fiber flat-top comb filter”, Optical Fiber Technology, 12 (1): 1-9, 2006. (SCI: 001MK; EI: 2005529611202)
208. Wenyu Wang, Shaoxiang Duan, Lingyi Xiong, Bo Liu, Yuan Yao, Wei Lin, Hao Zhang, Haifeng Liu, and Jixuan Wu, “Hybrid structured fiber-optic Fabry-Perot interferometer for simultaneous bicarbonate and temperature measurements”, Optics and Laser Technology, 175: 110752, 2024. (SCI: ON4E5; EI: 20241115750030)
209. Shaoxiang Duan, Wenyu Wang, Lingyi Xiong, Bo Wang, Bo Liu, Wei Lin, Hao Zhang, Haifeng Liu, and Xu Zhang, “All in-fiber Fabry-Perot, interferometer sensor towards refractive index and temperature simultaneous sensing”, Optics and Laser Technology, 180: 111551, 2025. (SCI: C2H6T; EI: 20243216803728)
210. Dongye Xu, Yuan Yao, Zehui Lu, Meng Guo, Shaoxiang Duan, Wei Lin, Hao Zhang, and Bo Liu, “Manipulating arbitrary shaped Mathieu bottle beams based on geometric factor design”, Optics Express, 32 (17): 28978-28989, 2024. (SCI: E0U9P; EI: 20243416909135)
211. Dongye Xu, Shaoxiang Duan, Xingyu Mao, Wenmin Ren, Yuan Yao, Wei Lin, Hao Zhang, and Bo Liu, “Generation and reconfiguration of interference-pattern helicon-conical beams”, Chinese Optics Letters, 22 (9): 090009, 2024. (SCI: H5A6K; EI: 20244017137322)
212. Dongye Xu, Zehui Lu, Shaoxiang Duan, Xu Zhang, Wei Lin, Yuan Yao, Hao Zhang, and Bo Liu, “Autofocusing and self-healing properties of circular Mathieu beam carrying orbital angular momentum”, Optics and Laser Technology, 177: 111186, 2024. (SCI: N0Y8J; EI: 20242116130707)
213. Zehui Lu, Zhenfeng Guo, Miaosen Fan, Meng Guo, Changjin Li, Yuan Yao, Hao Zhang, Wei Lin, Haifeng Liu, and Bo Liu, “Tunable Bessel beam shaping for robust atmospheric optical communication”, Journal of Lightwave Technology, 40 (15): 5097-5106, 2022. (SCI: 3G2FV; EI: 20221912093055)
214. Baoluo Yan, Haifeng Liu, Changjin Li, Xiaorui Jiang, Xiaolong Li, Jiaqing Hou, Hao Zhang, Wei Lin, Bo Liu, and Jianguo Liu, “Laser-filamentation-assisted 1.25 Gb/s video communication under harsh conditions”, Optics and Laser Technology, 131: 106391, 2020. (SCI: NG9KL; EI: 20202508838476)
215. Lingyi Xiong, Shaoxiang Duan, Wenyu Wang, Haodong Liu, Wei Lin, Yuan Yao, Haifeng Liu, Hao Zhang, Bo Liu, Jixuan Wu, and Xu Zhang, “Lab on fiber: photopolymer self-growing micro-cone for highly sensitive temperature and salinity detection”, Journal of Lightwave Technology, 42 (24): 8918-8925, 2024. (SCI: O0G6S; EI: 20243416903269)
216. Changjin Li, Zehui Lu, Dongye Xu, Shaoxiang Duan, Xu Zhang, Haifeng Liu, Wei Lin, Hao Zhang, and Bo Liu, “Research on high precision time-frequency transmission under low available bandwidth based on free space optical communication with special beam”, Optics Communications, 564: 130616, 2024. (SCI: SY8A6; EI: 20241816022009)
217. Zehui Lu, Baoluo Yan, Kun Chang, Yuanzhe Qiao, Changjin Li, Jinyao Hu, Tianxu Xu, Hao Zhang, Wei Lin, Yang Yue, Haifeng Liu, and Bo Liu, “Space division multiplexing technology based on transverse wavenumber of Lommel-Gaussian beam”, Optics Communications, 488: 126835, 2021. (SCI: RB7YH; EI: 20210609902712)
Conference Contributions
1. Hao Zhang, “Microstructured-optical-fiber-based whispering gallery mode functional devices for biochemical detection applications”, OFS-China 2023, Invited Talk, Hefei, China, 2023.08.11-2023.08.13.
2. Hao Zhang, “Generation of orbital angular momentum light in optical fibers”, The 10th International Conference on Information Optics and Photonics (CIOP2018), Invited Talk, Beijing, China, 2018.07.08-07.11.
3. Hao Zhang, Bo Liu, Yange Liu, Yinping Miao, Xingya Chen and Yunqi Liu, “Multilongitudinal-mode fiber laser temperature sensor and its applications in the measurement of temperature dependence of fiber birefringence”, Proceedings of SPIE, Optical Sensors and Biophotonics III, 8311: 83110Q, Shanghai, China, 2011.11.29. (EI: 20120114661202)
4. Hao Zhang, Ling Yu, Yange Liu, Chao Wang, Lihui Liu, Lingyun Xiong, Shuzhong Yuan and Xiaoyi Dong, “A novel method to improve noise figure for double-pass L-band EDFA”, Conference on Passive Components and Fiber-based Devices, Proceedings of SPIE, 5623: 799-802, Beijing, China, 2004.11.09-11. (EI: 2005189084403)
5. Hao Zhang, Bo Liu, Lingyun Xiong, Ling Yu, Qingying Dou, Shaohua Chen, Y Liu, Lihui Liu, Shuzhong Yuan and Xiaoyi Dong, “An all-fiber electric voltage sensor based on high birefringence fiber loop mirror”, Conference on Passive Components and Fiber-based Devices, Proceedings of SPIE, 5623: 817-820, Beijing, China, 2004.11.09-11. (EI: 2005189084406)
6. Hao Zhang, Ling Yu, Yange Liu, Lihui Liu, Shuzhong Yuan and Xiaoyi Dong, “Discretely tunable all-fiber Fabry-Perot laser based on birefringence fiber loop mirror and fiber Bragg grating”, Asia-Pacific Optical and Wireless Communications Conference (APOC 2003), Proceedings of SPIE, 5280: 849-852, Wuahan, China, 2004.11.04-06. (EI: 2004278246311)
7. Hao Zhang, Yange Liu, Ling Yu, Lihui Liu, Guang Zhou, Shuzhong Yuan and Xiaoyi Dong, “Novel all-fiber variable optical attenuator based on high birefringence fiber loop mirror”, Asia-Pacific Optical and Wireless Communications Conference (APOC 2003), Proceedings of SPIE, 5279: 456-460, Wuhan, China, 2004.11.04-06. (EI: 2004288257207)
8. Tong Chen, Hao Zhang*, Miaoling Yang, Qian Wang, Xiaoli Shan, Jianyu Cai, Wei Lin, Shaoxiang Duan, and Bo Liu, “High-accuracy quasi-quantum analytic approach for mode characterization in microdisk resonators”, Poster, 2024 Optical Microcavity Workshop, Wuhan, China, 2024.08.17-20.
9. Xiaoli Shan, Hao Zhang*, Tong Chen, Miaoling Yang, Jianyu Cai, Wei Lin, Shaoxiang Duan, and Bo Liu, “Coupled-capillary-based sensitivity-enhanced higher-order exceptional point microfluidic refractive index sensor for biochemical applications”, Poster, 2024 Optical Microcavity Workshop, Wuhan, China, 2024.08.17-20.
10. Qian Wang, Hao Zhang*, Miaoling Yang, Tong Chen, Wei Lin, Shaoxiang Duan, and Bo Liu, “High-sensitivity microfluidic Mach-Zehnder interferometric salinity sensor based on C-type dual-core eccentric-hole fibers” , OEAI2024, Tianjin, China, 2024.05.24-26.
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学校介绍
南开大学是教育部直属重点综合性大学,是敬爱的周恩来总理的母校。新中国成立以来,学校发展始终得到党和国家的亲切关怀。毛泽东主席题写校名、亲临视察;周恩来总理三回母校指导;邓小平同志会见数学大师陈省身,批示成立南开数学研究所;江泽民同志、胡锦涛同志先后视察南开。特别是党的十八大以来,习近平总书记多次对南开的发展给予肯定,并对相关工作回信和勉励,更在百年校庆之际亲临南开视察。
南开大学由严修、张伯苓秉承教育救国理念创办,肇始于1904年,成立于1919年。1937年校园遭侵华日军炸毁,学校南迁。1938年与北京大学、清华大学合组西南联合大学,被誉为“学府北辰”。1946年回津复校并改为国立。
新中国成立后,经历高等教育院系调整,成为文理并重的全国重点大学。改革开放以来,天津对外贸易学院、中国旅游管理干部学院相继并入,经教育部与天津市共建支持,学校发展成为国家“211工程”和“985工程”重点建设的综合性研究型大学。2015年9月,新校区建成启用后,初步形成了八里台校区、津南校区、泰达学院“一校三区”办学格局。2017年9月,入选国家42所世界一流大学建设高校,且为36所A类高校之一。
南开大学坚持“允公允能,日新月异”的校训,弘扬“爱国、敬业、创新、乐群”的传统和“文以治国、理以强国、商以富国”的理念,以“知中国,服务中国”为宗旨,以杰出校友周恩来为楷模,作育英才,繁荣学术,强国兴邦,传承文明,努力建设世界一流大学。
南开大学占地443.12万平方米,其中八里台校区占地121.60万平方米,津南校区占地245.89万平方米,泰达学院占地6.72万平方米。校舍建筑总面积195.19万平方米。按照“独立办学、紧密合作”的原则,与天津大学全面合作办学。
南开大学是国内学科门类齐全的综合性、研究型大学之一。在长期办学过程中,形成了文理并重、基础宽厚、突出应用与创新的办学特色。有专业学院26个,学科门类覆盖文、史、哲、经、管、法、理、工、农、医、教、艺等。
南开大学拥有一支公能兼备、业务精湛、奋发有为、充满活力的师资队伍。有专任教师2202人。其中,博士生导师885人、硕士生导师783人,教授898人、副教授857人。
南开大学具备培养学士、硕士和博士的完整教育体系。有在校学生31418人,其中本科生17005人,硕士研究生10299人,博士研究生4114人。有网络专科学生40230人,网络本科学生73029人。
学校积极构建和发展适应21世纪经济社会发展和人才培养需要的学科体系,有本科专业93个(其中国家级特色专业18个),硕士学位授权一级学科11个,硕士专业学位授权点27个,博士学位授权一级学科31个,不在一级学科覆盖下的二级博士点1个,博士后科研流动站28个。有国家“双一流”建设学科5个,一级学科国家重点学科6个(覆盖35个二级学科),二级学科国家重点学科9个,一级学科天津市重点学科32个,国家级一流本科专业建设点21个,省级一流本科专业建设点2个。有国家重点实验室2个,国家工程研究中心1个,国家地方联合工程研究中心1个,2011协同创新中心3个。教育部重点实验室7个,教育部工程研究中心3个,教育部国际合作联合实验室2个,国家环境保护重点实验室1个,国家人权教育与培训基地1个,教育部人文社会科学重点研究基地6个,省部共建协同创新中心1个,教育部国别和区域研究基地7个(培育基地1个、备案基地6个),示范性国家国际科技合作基地4个。国家级实验教学示范中心5个,国家级虚拟仿真实验教学中心2个,国家虚拟仿真实验教学项目2项,国家基础学科人才培养和科学研究基地9个,国家教材建设重点研究基地1个,国家大学生文化素质教育基地1个,中华传统文化传承基地2个,国家创新人才培养示范基地1个。天津市重点实验室20个,天津市工程技术中心4个,天津市普通高等学校实验教学示范中心14个,天津市普通高等学校实验教学示范中心建设单位1个,天津市国际科技合作基地22个,天津市人文社科重点研究基地9个,天津市高校智库8个,天津市社科实验室5个,天津市爱国主义教育基地1个。
有中国科学院院士11人,中国工程院院士4人,发展中国家科学院院士8人,教育部“长江学者奖励计划”特聘教授44人、青年学者19人,“国家杰出青年科学基金”获得者57人、“国家优秀青年科学基金”获得者39人,国家“万人计划”领军人才27人、青年拔尖人才15人,国家“百千万人才工程”入选者30人,教育部“跨世纪人才基金”获得者21人、“新世纪优秀人才支持计划”入选者158人,国家级有突出贡献的专家22人,国务院学位委员会学科评议组成员16人,国家自然科学基金创新研究群体负责人6人,“国家高技术研究发展计划(863计划)”首席科学家3人,“国家重点基础研究发展计划(973计划)”首席科学家15人,国家重点研发计划项目负责人24人。国家级教学名师奖获得者7人,国家级教学团队9个,教育部“高校青年教师奖”获得者8人。天津市杰出人才8人,天津市“人才发展特殊支持计划”领军人才3人、青年拔尖人才11人、高层次创新创业团队带头人11人,天津市有突出贡献专家7人,天津市杰出津门学者3人,天津市“131”创新人才培养工程第一层次人选63人、创新型人才团队带头人17人,“天津市杰出青年科学基金”获得者40人,天津市级教学名师奖获得者35人,天津市级教学团队18个。
南开大学既是教学中心,又是科研中心,取得了一批国内外公认的优秀成果。2019年,周其林院士领衔完成的“高效手性螺环催化剂的发现”项目获国家自然科学奖一等奖。2007—2018年以第一单位获得国家自然科学二等奖4项,国家科技进步二等奖1项,国家技术发明二等奖1项。获国家教学成果奖46项,国家级精品资源共享课31门,国家级精品视频公开课15门,国家级一流本科课程31门,中国专利优秀奖1项,中国青年科技奖2项,全国百篇优秀博士论文累计入选20篇。2018年以来,南开学者团队以第一完成单位在Science上发表研究论文6篇。
南开大学秉承“知中国,服务中国”的优良传统,立足“四个服务”职责使命,聚焦“一带一路”、京津冀协同发展、雄安新区建设等国家和区域发展战略,积极发挥学科、人才和技术优势,努力为国家和地方经济社会发展服务。习近平新时代中国特色社会主义思想研究院、21世纪马克思主义研究院、亚太经济合作组织研究中心、中国新一代人工智能发展战略研究院、经济与社会发展研究院、滨海开发研究院、人权研究中心、津南研究院、统计研究院、生态文明研究院等研究机构是国家有关部委和地方政府的“智囊团”和“人才库”。学校按照“国家急需,世界一流”的原则,全面对接“创新驱动发展”战略、“中国制造2025”等的实施,积极推动各类协同创新中心和若干高层次交叉科学中心建设,与一批高校、企业、科研院所、政府部门建立了紧密合作关系。
南开大学重视学生德、智、体、美、劳全面发展,构建南开特色的“公能”素质教育体系,探索“课堂教学-校园文化-社会实践”三位一体育人模式。以“注重素质、培养能力、强化基础、拓宽专业、严格管理、保证质量”为教学指导思想,实行弹性学制、学分制、主辅修制、双学位制。注重培育优良校风,大力加强校园文化建设,为学生营造丰富高雅、活泼向上的成长氛围。推进创新创业教育,开办“创业班”,推进“南开大学学生创新创业实践基地”建设,提升学生创新能力,助力学生创业计划落地。大力开展“师生同行”社会实践,搭建师生“受教育、长才干、作贡献”的互动平台。南开毕业生以专业基础扎实、综合素质全面、富于开拓精神和实践能力而受到社会各界青睐。
南开大学有着广泛的国际影响,与320多所国际知名大学和国际学术机构建立了合作与交流关系;有专兼职外国专家400余人,以及来自114个国家和地区的2000余名留学生在校学习;承建了英国格拉斯哥大学孔子学院等8所海外孔子学院;与英国牛津大学、伯明翰大学、韩国SK集团共建国际联合研究中心;与世界经济论坛(达沃斯论坛)、全球大学领导者论坛(GULF)、国际公立大学联盟(IFPU)、国际大学联合会(IAU)、世界工程组织联合会(WFEO)等国际组织保持着密切联系,通过积极参与各类国际组织活动,进一步推动与世界一流大学、机构的实质性、深层次合作。
南开大学先后授予数学家陈省身、物理学家吴大猷、经济学家扬·米尔达尔、美国科学院院士蒋-卡洛·若塔、哈佛大学医学院教授摩斯·居达·福克曼、台湾海基会前董事长江丙坤、美国莱斯大学校长李达伟、世界经济论坛主席克劳斯·施瓦布、新加坡总统陈庆炎、法国宪法委员会主席洛朗·法比尤斯等10位国际著名人士名誉博士称号。诺贝尔奖获得者杨振宁、李政道、罗伯特·蒙代尔、彼得·杜赫提、卡尔·巴里·夏普莱斯、弗农·洛马克斯·史密斯、罗伯特·恩格尔、巴里·詹姆斯·马歇尔、托马斯·萨金特,美国前国务卿基辛格,韩国前总统金大中,欧盟委员会前主席、意大利前总理罗马诺·普罗迪,著名作家金庸等被聘为名誉教授,一批海内外知名学者、著名政治家、企业家任客座教授、兼职教授。
南开大学将深入贯彻落实习近平总书记来校视察重要讲话精神,全面贯彻党的教育方针,坚持社会主义办学方向,落实立德树人根本任务,践行“四个服务”重要使命,加快建设南开品格、中国特色、世界一流大学,培养德智体美劳全面发展的社会主义建设者和接班人,为实现中华民族伟大复兴做出新一代南开人的历史贡献。
(数据截至2020年12月)
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