Journal papers

  1. S. Wang, A. Madan, C. Zhao, E. S. Huang, T. Su, B. J. Chiew, Y. Yang*, Experimental study on strain of SFRC tunnel lining segments using a comprehensive embedded optical fiber sensing system, Measurement, 113791,(2023).

  2. D. Yu, S. Wang*, W. Li, Y. Yang*, J. Hong, Shape sensing for thin-shell spaceborne antennas with adaptive isogeometric analysis and inverse finite element method, Thin-Walled Structures, 192, 111154,(2023).

  3. S. Wang, L. Mohanty, and Y. Yang*, An accurate demodulation method for fiber-optic interferometric sensors based on the expanded free spectral range, IEEE Sensors Journal, 23(3), 2241-2248,(2023).

  4. S. Zhang, S. Wang*, P. Niu, and J. Cao*, A novel slight-tilt measure method based on dynamic Vernier effect using dual Fabry-Perot interferometers on vertical cantilever beam, Sensors and Actuators A: Physical, 113982,(2022).

  5. S. Wang, Y. Yang*, L. Mohanty, R. Jin, and Peixiang Lu, Ultrasensitive fiber optic inclinometer based on dynamic Vernier effect using push-pull configuration, IEEE Transactions on Instrumentation and Measurement, 71, 7006408,(2022).

  6. P. Niu, S. Wang*, S. Zhang, and R. Jin, Simultaneous Measurement of Water Pressure and Temperature Based on a Simple Fabry-Pérot Sensor, IEEE Photonics Technology Letters, 34(12), 629-632,(2022).

  7. S. Wang, Y. Yang*, J. Cao*, L. Zhang, L. Mohanty, R. Jin, and K. Li, High-precision large-range optical fiber interferometric piezometer and its wide band interferometry for water pressure measurement, IEEE Transactions on Instrumentation and Measurement, 71, 7001613-7001625,(2022).

  8. S. Wang, Y. Yang*, L. Zhang, L. Mohanty, R. Jin, S. Wu, and P. Lu, High-precision fiber optic liquid level sensor based on fast Fourier amplitude demodulation in a specific range of spectrum, Measurement, 187, 110326, (2022).

  9. S. Wang, Y. Yang*, L. Wu*, L. Mohanty, R. Jin, L. Zhang, and P. Lu, In-situ adjustable fiber-optic piezometer based on parallelly structured external Fabry-Perot interferometers with Vernier effect and its harmonics, Optics Express, 29(26), 42800-42812, (2021).

  10. S. Wang, Y. Yang*, P. Niu, S. Wu, S. Liu, R. Jin, P. Lu, X. Hu, and N. Dai, Fiber tip Michelson interferometer for temperature sensing based on polymer-filled suspended core fiber, Optics and Laser Technology, 141, 107147-107150, (2021).

  11. S. Wu, H. Cheng, J. Ma, X. Yang, Shun Wang*, and P. Lu, Temperature-independent ultra-sensitive refractive index sensor based on hollow-core silica tubes and tapers, Optics Express, 29(7), 10939-10948, (2021).

  12. S. Wang, P. Niu, S. Liu , S. Wu , R. Jin, P. Lu, and Y. Yang*, Curvature and Temperature Sensor Based on Anti-resonant Effect Combined with Multimode Interference, IEEE Photonics Technology Letters, 33(3), 127-130, (2021).

  13. N. Xing, S. Jin, Y. Li, and S. Wang*, Twice-FFT demodulation for signal distortion in optical fiber FP acoustic sensor, Heliyon, 6(12), e05790, (2020).

  14. J. Yuan, K. Zhang, W. Yao, B.Liu, Q. Li, Z. Zhang, K.Zhang, R. Chen, and S. Wang*, A simple fiber lateral stress sensor based on polarization-maintaining fiber embedded Michelson interferometer assisted by silicon rubber sheets, Optik, 203,164008, (2020).

  15. F. Zhao, R. Xue, J. Wang, Z. Zhang, K.Zhang, R. Chen, Y. Luo, and S. Wang*, A fiber optic temperature sensor based on interference fringe contrast demodulation, Optik, 204, 164014, (2020).

  16. S. Wang, S. Wang*, R. Jin, M. Feng, S. Wu, L. Zhang, P. Lu, All-optical demodulation fiber acoustic sensor with real-time controllable sensitivity based on optical vernier effect, IEEE Photonics Journal, 11(4), 1-11, (2019).

  17. M., Feng, S. Wang*, S. Wang, L. Mao, A miniature inline fiber temperature sensor based on a silica capillary partially filled with ethanol, Optik, 193, 162993, (2019).

  18. S. Wang, S. Wang*, S. Zhang, M. Feng, S. Wu, R. Jin, L. Zhang, P. Lu, An inline fiber curvature sensor based on anti-resonant reflecting guidance in silica tube, Optics and Laser Technology, 111, 407-410, (2019).

  19. S. Wang, M. Feng, S. Wu, Q. Wang, L. Zhang, Highly sensitive temperature sensor based on gain competition mechanism using graphene coated microfiber, IEEE Photonics Journal, 10(3), 1-8,(2018).

  20. S. Liu, J. Tian, S. Wang*, Z. Wang, and P. Lu, Anti-resonant reflecting guidance in silica tube for high temperature sensing, IEEE Photonics Technology Letters, 29(23), 2135-2138, (2017).

  21. S. Wang, S. Liu, W. Ni, S. Wu, and P. Lu, Dual-wavelength Highly-sensitive Refractive Index Sensor, Optics Express, 25(13), 14389-14396, (2017).

  22. S. Wang, T. Zhang#, K. Li, S. Ma, M. Chen, P. Lu, L. Wei*, Flexible Piezoelectric Fibers for Acoustic Sensing and Positioning, Advanced Electronic Materials, 3(3), (2017).

  23. S. Wang, P. Lu, L. Liu, H. Liao, Y. Sun, W. Ni, X. Fu, X. Jiang, D. Liu, J. Zhang, H. Xu, Q. Yao, Y. Chen, An infrasound sensor based on extrinsic fiber-optic Fabry-Perot interferometer structure, IEEE Photonics Technology Letters, 28(11), 1264-1267, (2016).

  24. S. Wang, P. Lu, L. Mao, D. Liu, and S. Jiang, Cascaded interferometers structure based on dual-pass Mach-Zehnder interferometer and Sagnac interferometer for dual-parameter sensing, Optics Express, 23(2), 674-680, (2015).

  25. S. Wang, P. Lu, S. Zhao, D. Liu, W. Yang, J. Zhang, 2μm dual-wavelength switchable fiber laser based on dual-channel Mach-Zehnder interferometer and spatialmode beating effect cascaded filter, Applied Physics B: Lasers and Optics, 117(2), 563-569, (2014).

  26. S. Wang, P. Lu, L. Zhang, D. Liu, J. Zhang, Intensity Demodulation-Based Acoustic Sensor Using Dual Fiber Bragg Gratings and A Titanium Film, Journal of Modern Optics, 61(12), 1033-1038, (2014).

  27. S. Wang, P. Lu, L. Zhang, D. Liu, J. Zhang, Optical fiber acoustic sensor based on non-standard fused coupler and aluminum foil, IEEE Sensors Journal, 14(7), 2293-2298, (2014).

  28. S. Wang, P. Lu, H. Liao, L. Zhang, D. Liu, J. Zhang, Passively mode-locked fiber laser sensor for acoustic pressure sensing, Journal of Modern Optics, 60(21), 1892-1897, (2013).

Co-authored journal papers

  1. S. Ran, W. Ni, C. Yang, Z. Zhao, S. Wang, P. P. Shum, Alterable interferential fineness for high temperature sensing calibration based on Bragg hollow core fiber. Optics Express, 31(15), 25207-25219, (2023).

  2. C. Yang, R. Liu, W. Ni, S. Wang, Y. Tian, J. Hou, S. Chen, P. P. Shum, High-order OAM states unwrapping in multiplexed optical links, APL Photonics, 8(5), (2023).

  3. Z. Yang, Z. Zeng, Y. Tian, S. Wang, R. Shimizu, H. Wu, S. Liu, R. Jin, Spatial–spectral mapping to prepare frequency entangled qudits, Optics Letters, 48(9), 2361-2364, (2023).

  4. X. Chen, S. Wang, C. You, OS. Magaña-Loaiza, R. Jin, Experimental implementation of the fractional-vortex Hilbert hotel, Physical Review A, 106(3), 0335212200028, (2022).

  5. W. Cai, Y. Tian, S. Wang, C. You, Q. Zhou, R. Jin, Optimized Design of the Lithium Niobate for Spectrally‐Pure‐State Generation at MIR Wavelengths Using Metaheuristic Algorithm, Advanced Quantum Technologies, 2200028, (2022).

  6. J. Peng, S. Zhang, S. Jia, X. Kang, H. Yu, S. Yang, S. Wang, Y. Yang, A highly sensitive magnetic field sensor based on FBG and magnetostrictive composite with oriented magnetic domains, Measurement, Available at SSRN 4081857, (2022).

  7. N. Cai, W. H. Cai, S. Wang, F. Li, R. Shimizu, and R. B. Jin, Broadband-laser-diode pumped periodically poled potassium titanyl phosphate-Sagnac polarization-entangled photon source, JOSA B, 39(1), 77-822019, (2022).

  8. J Ma, H Cheng, X Yang, S Zhang, Y Li, S. Wang, S Wu, Spectral Characteristics of Fiber-Based S-Shape Taper Refractometer With High Sensitivity, IEEE Photonics Technology Letters, 33(22), 1266-1269, (2021).

  9. G. Q. Chen, H. Y. Zhao, S. Wang, X. Hao, H. W. Du, R. B. Jin, Terahertz waves generation using the isomorphs of PPKTP crystal: a theoretical investigation, OSA Continuum, 4(8), 2330-2338, (2021).

  10. X. Yang, S. Wu, H. Cheng, J. Ma, S. Wang, S. Liu, P. Lu, Simplified highly-sensitive gas pressure sensor based on harmonic Vernier effect, Optics & Laser Technology, 140, 107007, (2021).

  11. J. Ma, S. Wu, H. Cheng, X. Yang, S. Wang, P. Lu, Sensitivity-enhanced temperature sensor based on encapsulated S-taper fiber Modal interferometer, Optics & Laser Technology, 139, 106933, (2021).

  12. X. Yang, Y. Li, S. Zhang, S. Wang, S. Wu, Comparison of fiber-based gas pressure sensors using hollow-core photonic crystal fibers, IEEE Photonics Technology Letters, 13(2), 1-9, (2021).

  13. W. H. Cai, B. Wei, S. Wang, R. B. Jin, Counter-propagating spectrally uncorrelated biphotons at 1550 nm generated from periodically poled MTiOXO4 (M = K, Rb, Cs; X = P, As), JOSA B, 37(10), 3048-3054, (2020).

  14. F. Zhao, R. Xue, J. Wang, Z. Zhang, K. Zhang, R. Chen, Y. Luo, S. Wang, A fiber optic temperature sensor based on interference fringe contrast demodulation, Optik, 204, 164014, (2020).

  15. J Yuan, K Zhang, W Yao, B Liu, Q Li, Z Zhang, K Zhang, R Chen, S. Wang, A simple fiber lateral stress sensor based on polarization-maintaining fiber embedded Michelson interferometer assisted by silicon rubber sheets, Optik, 203, 164008, (2020).

  16. H Cheng, S Wu, Q Wang, S. Wang, P Lu, In-line hybrid fiber sensor for curvature and temperature measurement, IEEE Photonics Journal, 11(6), 1-11, (2019).

  17. R. B. Jin, N. Cai, Y. Huang, X. Y. Hao, S. Wang, F. Li, H. Z. Song, Q. Zhou, R. Shimizu, Theoretical investigation of a spectrally pure-state generation from isomorphs of KDP crystal at near-infrared and telecom wavelengths, Physical Review Applied, 11(3), 034067, (2019).

  18. Y. Sun, D. Liu, P. Lu, Q. Sun, W. Yang, S. Wang, L. Liu, W. Ni, High sensitivity optical fiber strain sensor using twisted multimode fiber based on SMS structure, Optics communications, 405, 416-420, (2017).

  19. H. Liao, P. Lu, L. Liu, S. Wang, W. Ni, X. Fu, D. Liu, J. Zhang, Phase demodulation of short-cavity Fabry–Perot interferometric acoustic sensors with two wavelengths, IEEE Photonics Journal, 9(2), 1-9, (2017).

  20. Y. Sun, D. Liu, P. Lu, Q. Sun, W. Yang, S. Wang, L. Liu, J. Zhang, Dual-parameters optical fiber sensor with enhanced resolution using twisted MMF based on SMS structure, IEEE Sensors Journal, 17(10), 3045-3051, (2017).

  21. X. Fu, P. Lu, W. Ni, H. Liao, S. Wang, D. Liu, J. Zhang, Spectrum interrogation of fiber acoustic sensor based on self-fitting and differential method, Optics Express, 25(4), 4429-4437, (2017).

  22. W. Ni, P. Lu, X. Fu, S. Wang, Y. Sun, D. Liu, J. Zhang, Highly sensitive optical fiber curvature and acoustic sensor based on thin core ultralong period fiber grating, IEEE Photonics Journal, 9(2), 1-9, (2017).

  23. C. Luo, P. Lu, X. Fu, J. Chen, S. Wang, C. Zhang, D. Liu, J. Zhang, All-fiber sensor based on few-mode fiber offset splicing structure cascaded with long-period fiber grating for curvature and acoustic measurement, Photonic Network Communications, 32(2), 224-229, (2016).

  24. W. Yang, P. Lu, S. Wang, D. Liu, J. Zhang, E. Chen, J. Liu, A Novel Switchable and Tunable Dual-Wavelength Single-Longitudinal-Mode Fiber Laser at 2 μm, IEEE Photonics Technology Letters, 28(11), 1161-1164, (2016).

  25. L. Liu, P. Lu, H. Liao, S. Wang, W. Yang, D. Liu, J. Zhang, Fiber-optic michelson interferometric acoustic sensor based on a PP/PET diaphragm, IEEE Sensors Journal, 16(9), 3054-3058, (2016).

  26. L. Liu, P. Lu, S. Wang, X. Fu, Y. Sun, D. Liu, J. Zhang, H. Xu, Q. Yao, UV adhesive diaphragm-based FPI sensor for very-low-frequency acoustic sensing, IEEE Photonics Journal, 8(1), 1-9, (2015).

  27. W. Yang, P. Lu, S. Wang, D. Liu, J. Zhang, 2-μm switchable, tunable and power-controllable dual-wavelength fiber laser based on parallel cavities using 3× 3 coupler, Applied Physics B, 120(2), 349-354, (2015).

  28. J. Chen, P. Lu, D. Liu, J. Zhang, S. Wang, D. Chen, Optical fiber curvature sensor based on few mode fiber, Optik, 125(17), 4776-4778, (2014).

  29. L. Zhang, P. Lu, D. Liu, J. Zhang, S. Wang, D. Wang, Two-beam interferometer with optical path difference magnified, Optics Letters, 38(2), 133-135, (2013).

Conference papers

  1. S. Liu, and S. Wang*, Fiber Bragg grating in seven core fiber fabricated with infrared femtosecond laser pulses and a phase mask, ICOCN 2019, 2019.

  2. S. Wang, S. Wang*, and M. Feng, Demodulation method for dynamic and static parameters of phase-modulated fiber optical sensor, SOPO 2019 2019.

  3. Q. Wang, and S. Wang*, The research on a dual-wavelength gain competition mechanism for a sensing application, SOPO 2018 2018.

Book chapter

  1. S. Wang, W. Ni, L. Zhang, P. Lu, Y. Yang, and L. Wei, Fiber-Based Infrasound Sensing, Advanced Fiber Sensing Technologies, Springer Singapore (2020).

Patents

  1. Y. Yang, S. Wang, and L. Mohanty, System And Method For Measuring Fluid Pressure, PCT Patent, International Publication Number: WO 2023/014283 A2 (2023).

  2. 王顺,张松阳,牛盼婷,沈正卿,陈荻, 一种基于动态游标效应的光纤倾角测量装置, 中国 受理号202210480249.1, 2022.

  3. 王顺,张松阳,牛盼婷,沈正卿,陈荻, 基于垂直悬臂梁和双FBG的原位光纤测斜仪和测斜方法, 中国 受理号202210261006.9, 2022.

  4. Y. Yang, S. Wang, and L. Mohanty, A Cost-Effective High-Precision Large-Range Optical Fiber Interference Piezometer, SG Patent, No. 10202108491W, (2021).

  5. Y. Yang, S. Wang, and L. Mohanty, An in-situ adjustable fiber-optic piezometer based on parallelly structured external Fabry-Perot interferometers with Vernier effect, SG Patent, No. 10202110555X, (2021).

  6. 王顺,牛盼婷,吴舜,刘书辉, 基于反谐振效应与多模干涉相结合的光纤曲率和温度同时测量装置, 中国 受理号202110386426.5, 2021.

  7. 王顺,牛盼婷,吴舜,刘书辉, 基于紫外胶填充悬芯光纤的迈克尔逊干涉型温度传感器, 中国 受理号202110386421.2, 2021.

  8. 赵文琴,王顺,赵天成,龚毅敏,蒋闯,项丝梦,贺丽君, 一种测量光纤曲率的装置及方法, 中国 授权201911352841.8, 2019.

  9. 王顺,王帅,冯铭哲, 一种无需安装的投入式光纤液位仪, 中国 受理号201911227307.4, 2019.

  10. 王顺,冯铭哲,王帅, 一种玻璃管填充的光纤温度测量装置, 中国 授权201910151820.3, 2019.

  11. 王顺,冯铭哲,王帅, 一种增益竞争温度测量装置, 中国 授权201810034580.4, 2018.

  12. 王顺,刘书辉,陆培祥, 一种水下超声源定位系统, 中国 授权201610863552.4, 2017.

  13. 王顺,刘书辉,陆培祥, 一种双波长增益竞争折射率测量装置, 中国 受理号201710338581.3, 2017.

  14. 鲁平, 王顺,刘德明, 一种光纤EFPI次声波传感器及次声信号探测系统, 中国 授权201510398802.7, 2015.

  15. 鲁平, 王顺,刘德明, 一种光纤应变-应力同时测量装置, 中国 授权201410655133.2, 2014.

  16. 鲁平, 王顺,刘德明, 一种光纤应变-应力同时测量装置, 中国 授权201420689204.6, 2014.

  17. 鲁平, 王顺,刘德明, 声压测量传感器及多纵模光纤激光器声压测量系统, 中国 授权201310645822.0, 2013.

  18. 鲁平, 王顺,刘德明, 一种声波频率探测器及多模耦合器声波频率探测系统, 中国 授权201210374356.2, 2012.