Yuanyuan Fan, Tengfei Xu, Desheng Cao, Kai Qian, and Shengli Pu*, “Design and analysis of surface plasmon resonance sensor with open-loop side-polished photonic crystal fiber,” Plasmonics 19(2), (2024).
Guibin Yuan, Shufei Han, Min Yuan, Xinjun Huang, and Shengli Pu*, “Fiber-tip-integrated high-sensitivity refractive index and high-precision liquid level sensor based on surface plasmon resonance,” Sensors and Materials, 36(4), 1329-1336 (2024).
Jiaqi Fu, Shengli Pu*, Zijian Hao, Chencheng Zhang, Weinan Liu, Simiao Duan, Shufei Hana, “Reflective magnetic field and temperature dual-parameter sensor based on no-core fiber probe,” Optics and Laser Technology 174, 110550 (2024).
Simiao Duan, Shengli Pu*, Xin Lin, Weinan Liu, Zijian Hao, Chencheng Zhang, Jiaqi Fu, and Shufei Han, “Enhanced sensitivity of temperature and magnetic field sensor based on FPIs with Vernier effect,” Optics Express 32(1), 275-286 (2024).
Mahieddine Lahoubi*, Shengli Pu, Weinan Liu, and Zhe Yang, “Magnetic field-induced phase transition and weak ferromagnetism in nonsuperconducting optimally doped PrBCO cuprate,” IEEE Magnetics Letters 15, 2500105 (2024)
Mahieddine Lahoubi*, Assia Boutaba, Shengli Pu, Weinan Liu, and Zhe Yang, “H-T phase diagrams in the region of the magnetic compensation point of Tb1.98Y1.02Fe5O12 and mean field analysis at high temperature,” Journal of Magnetism and Magnetic Materials 590, 171682 (2024).
Shufei Han, Shengli Pu*, Zijian Hao, Chencheng Zhang, Weinan Liu, Simiao Duan, Jiaqi Fu, Mingjue Wu, Peiwen Mi, Xianglong Zeng, and Mahieddine Lahoubi, “In-line temperature-compensated vector magnetic field sensor with side-polished fiber,” Optics Letters 48(17), 4504-4507 (2023).
Zijian Hao, Shengli Pu*, Mahieddine Lahoubi, Chencheng Zhang, and Weinan Liu, Dual-channel-in-one temperature-compensated all-fiber-optic vector magnetic field sensor based on surface plasmon resonance, Optics Express 31(3), 4826-4838 (2023).
Jia Wang, Shengli Pu*, Zijian Hao, Chencheng Zhang, Weinan Liu, and Yuanyuan Fan, “Comparative study of lab-on-fiber vector magnetic field sensor based on multimode and few-mode fiber,” Measurement 207, 112441 (2023).
Yi Kang, Leihong Zhang, Hualong Ye, Baolin Liu, Shengli Pu, Dawei Zhang, and Songlin Zhuang, “Visual cryptography based on ghost imaging and Hadamard transform,” Quantum Information Processing 22(2), 116 (2023).
Yi Kang, Saima Kanwal, Shengli Pu, Baolin Liu, and Dawei Zhang, “Ghost imaging-based optical multilevel authentication scheme using visual cryptography,” Optics Communications 526, 128896 (2023).
Guan‑Hua Wang, Bo‑Cheng Jiang, Jian‑Hao Tan, Qing‑Lei Zhang, Wen‑Cheng Fang, Chang‑Liang Li, Kun Wang, Xiao‑Xia Huang, and Sheng‑Li Pu, “Study on crab-cavity-based longitudinal injection scheme and prototype realization of C-band crab cavity for electron storage rings,” Nuclear Science and Techniques 34(7), 102 (2023).
Yuanyuan Fan, Shengli Pu*, Dihui Li, Yongliang Zhao, Min Yuan, Jia Wang, and Weinan Liu, “Bilaterally polished photonic crystal fiber magnetic field sensor based on lossy mode resonance,” IEEE Sensors Journal 22(24), 23786-23792 (2022).
Weinan Liu, Shengli Pu*, Zijian Hao, Jia Wang, Yuanyuan Fan, Chencheng Zhang, and Jingyue Wang, “Fiber-optic vector-magnetic-field sensor based on gold-clad bent multimode fiber and magnetic fluid materials,” Materials 15(20), 7208 (2022).
Zijian Hao, Yongxi Li, Shengli Pu*, Jia Wang, Fan Chen, and Mahieddine Lahoubi, Ultrahigh-performance vector magnetic field sensor with wedge-shaped fiber tip based on surface plasmon resonance and magnetic fluid, Nanophotonics 11(15), 3519-3528 (2022).
Zijian Hao, Shengli Pu*, Jia Wang, Weinan Liu, Chencheng Zhang, Yuanyuan Fan, and Mahieddine Lahoubi, “Dual-channel temperature-compensated vector magnetic field sensor based on lab-on-a-fiber-tip,” Optics Express 30(14), 25208-25218 (2022).
Chencheng Zhang, Shengli Pu*, Zijian Hao, Boyu Wang, Min Yuan, and Yuxiu Zhang, “Magnetic field sensing based on whispering gallery mode with nanostructured magnetic fluid-infiltrated photonic crystal fiber,” Nanomaterials 12(5), 862 (2022). [Cover Article]
big_cover-nanomaterials-v12-i5.gif [Top 10 Papers in 2022 in the Section Nanophotonics Materials and Devices in Materials]Yuxiu Zhang, Shengli Pu*, Yongxi Li, Zijian Hao, Dihui Li, Shaokang Yan, Min Yuan, and Chencheng Zhang, “Magnetic field and temperature dual-parameter sensor based on nonadiabatic tapered microfiber cascaded with FBG,” IEEE Access 10, 15478-15486 (2022). [ESI高被引论文2023.03]
Dihui Li, Shengli Pu*, Yongxi Li, Min Yuan, and Mahieddine Lahoubi, “Magnetically tunable fiber polarization beam splitter,” Instrumentation Science & Technology 50(2), 132-145 (2022).
Min Yuan, Shengli Pu, Dihui Li, Yongxi Li, Zijian Hao, Yuxiu Zhang, Chencheng Zhang, and Shaokang Yan, “Extremely high sensitivity magnetic field sensing based on birefringence-induced dispersion turning point characteristics of microfiber coupler,” Results in Physics 29, 104743 (2021).
Zijian Hao, Shengli Pu, Yongxi Li, and Dihui Li, “Vector magnetic field sensor based on orthogonal off-set spliced optical fiber cladded with magnetic fluid,” Journal of the Optical Society of America B 38(9), 2494-2501 (2021).
Vector-orthogonal off-set spliced.jpgYongxi Li, Shengli Pu, Zijian Hao, Shaokang Yan, Yuxiu Zhang, and Mahieddine Lahoubi, “Vector magnetic field sensor based on U-bent single-mode fiber and magnetic fluid,” Optics Express 29(4), 5236-5246 (2021).[ESI高被引论文2022.01]
Vector- U-bent.jpgShaokang Yan, Shengli Pu, Yuxiu Zhang, Min Yuan, and Chencheng Zhang, “Sensing properties of graphene-oxide-functionalized single-mode–no-core–single-mode fiber structure,” Results in Physics 25,104310 (2021).
Jilei Yao, Shengli Pu, Yongxi Li, Rui Zhang, and Zixuan Jia, “Sensing properties of thinned phase-shifted fiber Bragg gratings,” Sensors and Materials 32(10) 3335-3342 (2020).
Dihui Li, Shengli Pu, Yongliang Zhao, Yongxi Li, Zijian Hao, and Zhongxue Han, “Sensing properties of symmetrical side-polished photonic crystal fiber based on surface plasmon resonance,” Optik 224, 165662 (2020).
Yongxi Li, Shengli Pu, Yongliang Zhao, Jilei Yao, and Kai Qian, “Refractive-index-matched coupling generated by magnetic fluid around cladding removed multimode optical fiber,” Optical Fiber Technology 59, 102326 (2020).
Yongxi Li, Shengli Pu*, Yongliang Zhao, Rui Zhang, Zixuan Jia, Jilei Yao, Zijian Hao, Zhongxue Han, Dihui Li, and Xinjie Li, “All-fiber-optic vector magnetic field sensor based on side-polished fiber and magnetic fluid,” Optics Express 27(24), 35182-35188 (2019).
Rui Zhang, Shengli Pu*,and Xinjie Li, “Gold-film-thickness dependent SPR refractive index and temperature sensing with hetero-core optical fiber structure,” Sensors 19(19), 4345 (2019).
Rui Zhang, Shengli Pu*, Yuqi Li, Yongliang Zhao, Zixuan Jia, Jilei Yao, and Yongxi Li , “Mach-Zehnder interferometer cascaded with FBG for simultaneous measurement of magnetic field and temperature,” IEEE Sensors Journal 19(11), 4079-4083 (2019).
Tianjun Yao, Shengli Pu*, Yongliang Zhao, Yuqi Li, “Ultrasensitive refractive index sensor based on parallel-connected dual Fabry-Perot interferometers with Vernier effect,” Sensors and Actuators A: Physical 290, 14-19 (2019).
Zixuan Jia, Shengli Pu*, Jie Rao, Yongliang Zhao, Yuqi Li, Tianjun Yao, “Temperature self-compensative all-fiber magnetic field sensing structure based on no-core fiber cascaded with fiber Bragg gratings,” Optics and Lasers in Engineering 119, 26-29 (2019).
Yuqi Li, Shengli Pu, Yongliang Zhao, and Tianjun Yao, “Fiber-optic magnetic field sensing based on microfiber knot resonator with magnetic fluid cladding,” Sensors 18(12), 4358 (2018).
Tianjun Yao, Shengli Pu, Jie Rao, and Jianming Zhang, “Investigation of optical force on magnetic nanoparticles with magnetic-fluid-filled Fabry-Perot interferometer,” Scientific Reports 8, 12352 (2018).
Jianming Zhang, Shengli Pu, Jie Rao, and Tianjun Yao, “Refractive index and temperature sensors based on no-core fiber cascaded with long period fiber grating,” Journal of Modern Optics 65(9), 1098-1103 (2018).
Shengli Pu, Lianmin Mao, Tianjun Yao, Jinfeng Gu, Mahieddine Lahoubi, and Xianglong Zeng, “Microfiber coupling structures for magnetic field sensing with enhanced sensitivity,” IEEE Sensors Journal 17(18), 5857-5861 (2017).
Jie Rao, Shengli Pu, Tianjun Yao, and Delong Su, “Ultrasensitive magnetic field sensing based on refractive-index-matched coupling,” Sensors 17(7), 1590 (2017).
Delong Su, Shengli Pu, Lianmin Mao, Zhaofang Wang, and Kai Qian, “A photonic crystal magnetic field sensor using a shoulder-coupled resonant cavity infiltrated with magnetic fluid,” Sensors 16(12), 2157 (2016).
Lianmin Mao, Shengli Pu, Delong Su, Zhaofang Wang, Xianglong Zeng, and Mahieddine Lahoubi, “Magnetic field sensor based on cascaded microfiber coupler with magnetic fluid,” J. Appl. Phys. 120(9), 093102 (2016).
Shengli Pu, Longfeng Luo, Jiali Tang, Lianmin Mao, and Xianglong Zeng, “Ultrasensitive refractive-index sensors based on tapered fiber coupler with Sagnac loop,” IEEE Photon. Technol. Lett. 28(10), 1073-1076 (2016).
Delong Su, Shengli Pu, and Weizheng Lei “Magnetically tunable slow light based on alternative-row-elliptical-hole photonic crystal waveguide infiltrated with magnetic fluids,” J. Optoelectron. Adv. Mater. 18(5-6), 453-458 (2016).
Longfeng Luo, Shengli Pu, Shaohua Dong, and Jiali Tang, “Fiber-optic magnetic field sensor using magnetic fluid as the cladding,” Sensors and Actuators A: Physical236, 67-72 (2015).
Jiali Tang, Shengli Pu, Longfeng Luo, and Shaohua Dong, “Simultaneous measurement of magnetic field and temperature based on magnetic fluid-clad long period fiber grating,” J. Eur. Opt. Soc.-Rapid 10, 15025 (2015).
Weizheng Lei, and Shengli Pu, “Tunable slow light with large bandwidth and low-dispersion in photonic crystal waveguide infiltrated with magnetic fluids,” J. Magn. 20(2), 110-113 (2015).
Jiali Tang, Shengli Pu, and Shaohua Dong, “Single-beam Mach-Zehnder micro-interferometer based on magnetic fluids,” Optik 126(21), 2934-2936 (2015).
Jiali Tang, Shengli Pu, Shaohua Dong, and Longfeng Luo, “Magnetic field sensing based on magnetic-fluid-clad multimode-singlemode-multimode fiber structures,” Sensors 14, 19086-19094 (2014).
Shaohua Dong, Shengli Pu, and Haotian Wang,“Magnetic field sensing based on magnetic-fluid-clad fiber-optic structure with taper-like and lateral-offset fusion splicing,” Opt. Express 22, 19108-19116 (2014).
Shengli Pu, and Shaohua Dong, “Magnetic field sensing based on magnetic-fluid-clad fiber-optic structure with up-tapered joints,” IEEE Photon. J. 6, 5300206 (2014).
Shengli Pu, Shaohua Dong, and Juan Huang, “Tunable slow light based on magnetic-fluid-infiltrated photonic crystal waveguides,” J. Opt. 16, 045102 (2014). 2016年扩展版ESI 3%高被引论文
[LabTalk - Slowing light with magnetic means:http://iopscience.iop.org/2040-8986/labtalk-article/56900]
Shaohua Dong, Shengli Pu, and Juan Huang, “Highly sensitive curvature sensor based on singlemode-multimode-singlemode fiber structures,” Journal of Optoelectronics and Advanced Materials 16 (11-12), 1247-1251 (2014).
Xiang Wang, Shengli Pu, Hongzhu Ji, and Guojun Yu, “Optical transmittance of ferronematic materials in the visible range,” Journal of Optoelectronics and Advanced Materials 16 (7-8), 771-775 (2014).
Shaohua Dong, Shengli Pu,and Juan Huang, “Magnetic field sensing based on magneto-volume variation of magnetic fluids investigated by air-gap Fabry-Pérot fiber interferometers,” Appl. Phys. Lett. 103, 111907 (2013).
Shengli Pu, Haotian Wang, Ning Wang, and Xianglong Zeng, “Extremely large bandwidth and ultralow-dispersion slow light in photonic crystal waveguides with magnetically controllability,” Appl. Phys. B 112, 223-229 (2013).
Shengli Pu, Haotian Wang, Ning Wang, and Xianglong Zeng, “Tunable flat band slow light in reconfigurable photonic crystal waveguides based on magnetic fluids,” Opt. Commun. 311, 16-19 (2013).
Guojun Yu, Shengli Pu, Xiang Wang, and Hongzhu Ji, “Tunable one-dimensional photonic crystals based on magnetic fluids,” Optik 124, 2713-2715 (2013).
Hongzhu Ji, Shengli Pu, Xiang Wang, and Guojun Yu, “Magnetic field sensing based on V-shaped groove filled with magnetic fluids,” Appl. Opt. 51, 1010-1020 (2012).[Selected for Spotlight on Optics; March 14, 2012, Spotlight on Optics]
Shengli Pu, “Demonstration of interference of polarized light with a wedge depolarizer,” Phys. Edu. 28, 10 (2012).
于国君,卜胜利,王响,纪红柱, “基于硅柱磁性液体体系的光子晶体的可调谐负折射特性研究,” 物理学报第61卷第19期,194703 (2012).
Shengli Pu, Xuekun Bai, and Lunwei Wang, “Temperature dependence of photonic crystals based on thermoresponsive magnetic fluids,” J. Magn. Magn. Mater. 323, 2866-2871 (2011).
Xuekun Bai, Shengli Pu, and Lunwei Wang, “Optical relaxation properties of magnetic fluids under externally magnetic fields,” Opt. Commun. 284, 4929-4935 (2011).
Xuekun Bai, Shengli Pu, Lunwei Wang, Xiang Wang, Guojun Yu, and Hongzhu Ji, “Tunable magneto-optic modulation based on magnetically responsive nanostructured magnetic fluids,” Chin. Phys. B 20, 107501 (2011).
Shengli Pu, Xuekun Bai, and Lunwei Wang, “Reduced-thickness-dependent polarized light transmittance of magnetic fluids under longitudinal magnetic field,” Advances in Optical Technologies 2011, 105232 (2011).
Shengli Pu, Min Dai, and Guoqing Sun, “Longitudinal field-induced polarized light transmittance of magnetic fluids,” Opt. Commun. 283, 4012-4016 (2010).
Shengli Pu, and Ming Liu, “Tunable photonic crystals based on MnFe2O4 magnetic fluids by magnetic fields,” J. Alloys Compd. 481, 851-854 (2009).
Shengli Pu, Lanfang Yao, Feifei Guan, and Ming Liu, “Threshold-tunable optical limiters based on nonlinear refraction in ferrosols,” Opt. Commun. 282, 908-913 (2009).
Shengli Pu, Tao Geng, Xianfeng Chen, Xianglong Zeng, Ming Liu, and Ziyun Di, “Tuning the band gap of self-assembled superparamagnetic photonic crystals in colloidal magnetic fluids using external magnetic fields,” J. Magn. Magn. Mater. 320, 2345-2349 (2008).
Shengli Pu, Xianfeng Chen, Ziyun Di, Tao Geng, and Yuxing Xia, “Electrical properties of nanostructured magnetic colloid and influence of magnetic field,” Chin. Phys. Lett. 24, 3253-3256 (2007).
Shengli Pu, Xianfeng Chen, Ziyun Di, and Yuxing Xia, “Relaxation property of the magnetic-fluid-based fiber-optic evanescent field modulator,” J. Appl. Phys. 101, 053532 (2007).
Shengli Pu, Xianfeng Chen, Yuping Chen, Yonghao Xu, Weijun Liao, Lijun Chen, and Yuxing Xia, “Fiber-optic evanescent field modulator using a magnetic fluid as the cladding,” J. Appl. Phys. 99, 093516 (2006).
Shengli Pu, Xianfeng Chen, Lijun Chen, Weijun Liao, Yuping Chen, and Yuxing Xia, “Suppressing the thermal lens effect by magnetic-field-induced mass transfer and phase separation in a magnetic fluid,” Appl. Phys. Lett. 87, 021905 (2005).
Shengli Pu, Xianfeng Chen, Lijun Chen, Weijun Liao, Yuping Chen, and Yuxing Xia, “Tunable magnetic fluid grating by applying a magnetic field,” Appl. Phys. Lett. 87, 021901 (2005).
Shengli Pu, Xianfeng Chen, Yuping Chen, Weijun Liao, Lijun Chen, and Yuxing Xia, “Measurement of the refractive index of a magnetic fluid by the retroreflection on the fiber-optic end face,” Appl. Phys. Lett. 86, 171904 (2005).
Shengli Pu, Xianfeng Chen, Weijun Liao, Lijun Chen, Yuping Chen, and Yuxing Xia, “Laser self-induced thermo-optical effects in a magnetic fluid,” J. Appl. Phys. 96, 5930-5932 (2004).
