电子邮箱:shaoly@sustc.edu.cn
副教授
简历 研究领域 文献发表

研究领域:

新型微结构光纤及其应用;

分布式布里渊时域传感技术;

相敏光时域反射技术;

微波光子传感及测量技术; 

光信息及传感技术在轨道交通、周界安防、地震监测、桥隧安全监测等领域的应用研究;



教育经历:

2003/9 - 2008/6,浙江大学,光学工程,博士(香港理工大学联合培养)

1997/9 - 2001/6,浙江大学,光电信息工程,学士



工作经历:

2017/08 - 至  今,南方科技大学,电子与电气工程系,长聘副教授/研究员

2013/09 - 2017/07,西南交通大学,信息科学与技术学院,教授

2016/05 - 2017/05,  西南交通大学铁路发展有限公司, 高级顾问/副总工(兼职) 

2011/08 - 2013/08,香港理工大学,电子工程系,博士后研究员;

2012/03 - 2012/09, 澳大利亚悉尼大学,交叉光子实验室, 高级访问学者

2009/08 - 2011/08, 加拿大卡尔顿大学,电子工程系, 博士后研究员

2006/08 - 2009/06, 香港理工大学,电机工程系,研究助理

2001/07 - 2003/07, 深圳昂纳光通信/杭州聚光科技, 研发工程师


研究简介:

主要研究方向为新型光纤(传感)器件、分布式光纤传感系统、光纤光栅及光纤激光器、微波光子传感测量等前沿科学和轨道交通、周界安防、地震监测、桥隧安全监测等领域的应用研究等。在本领域顶级/一流国际SCI期刊发表论文77篇(第一及通讯作者31篇),Google Scholar统计总引用2400余次,H-index为24,其中SCI他引800余次;“微型光纤矢量倾斜仪”的工作被Nature Photonics(影响因子:29.278)作为研究亮点进行了特别报导;在Laser & Photonics Reviews发表邀请综述论文1篇(影响因子8.008);在国际会议上宣读(粘贴)报告论文40余篇,其中特邀报告5次;获批国家发明专利5项;长期担任本领域国际著名SCI期刊Opt. Lett., Opt. Express, J. Lightwave Technol., Photon. Technol. Lett., Sensors,Photonics Journal,Plasmonics 等在内的20余种期刊审稿人。

目前主持科技部国际合作专项、中组部千人计划科研基金、四川省千人计划科研基金、国家自然科学基金(面上项目)、省科技厅重大项目等,纵向经费近1000万。


学术兼职情况:

专业机构会员:美国光学学会(OSA)会员;电气电子工程师协会(IEEE)会员;中国光学学会(COS)高级会员、光学测试专业委员会/纤维光学与光子集成专业委员会委员;四川省电子学会光电子专委会委员

评审专家:国家科技奖励;科技部重大仪器专项;国家自然基金委员会;浙江省杭州市科学技术委员会

会议任职:担任多个国际会议的TPC或Organization Committee委员,包括ICAIT(2009-2013)、PGC’2010(Singapore)、OFS’2011(Canada)、PIERS2014、ICOCN2015/2016、PGC’2017(Singapore)等;

审稿人:包括本领域国际著名SCI期刊OSA Opt. Lett., OSA Opt. Express, OSA/IEEE J. Lightwave Technol., IEEE Photon. Technol. Lett.等在内的20多种期刊长期审稿人;



获奖情况和人才计划

2016年 荣获“詹天佑铁道科技奖青年奖” 

2015年 入选中组部“青年千人计划”

2014年 入选四川省组织部“四川省千人计划” 

2014年 入选西南交通大学“扬华之星”人才计划

2012年 澳大利亚教育部“奋进学者奖”



代表文章:* 通信作者

[J77] X. Zhang, L.-Y Shao, H. He, W. Pan, and L. Yan, "Annealing properties of fiber Bragg grating UV-inscribed inboron-germanium codoped fiber," Applied Optics 56, 6201-6205 (2017)

[J76] H. He, L.-Y Shao*, H. Li, W. Pan, B. Luo, X. Zou, and L. Yan, "SNR enhancement in phase-sensitive OTDR with adaptive 2D bilateral filtering algorithm," IEEE Photonics Journal PP, 1-1 (2017) DOI: 10.1109/JPHOT.2017.2700894.

[J75] H. He, L.-Y Shao*, H. Qian, X. Zhang, J. Liang, B. Luo, W. Pan, and L. Yan, "Novel birefringence interrogation for Sagnac loop interferometer sensor with unlimited linear measurement range," Optics Express 25, 6832-6839 (2017).

[J74] L.-Y. Shao*, M. Zhang, K. Xie, X. Zhang, P. Wang, and L. Yan, "The Longitudinal Force Measurement of CWR Tracks with Hetero-Cladding FBG Sensors: A Proof of Concept," Sensors 16, 2184 (2016).

[J73] J. Zhao, B. Luo, L.-Y. Shao, W. Pan, L. Yan, X. Zou, J. Ye, and H. Yang, "Pulse repetition rate doubling in FM actively mode-locked fiber-optic parametric oscillator," Optics Express 24, 30079-30087 (2016).

[J72] X. Zou, M. Li, W. Pan, L. Yan, and L.-Y. Shao, "Multichannel Narrow, Flat-Top Optical Filter Based on Multiple-Phase-Shifted and Phase Sampled FBG," IEEE Journal of Quantum Electronics (2016).

[J71] L.-Y. Shao*, J. Zhang, X.P. Zhang, W. Pan, and L.S. Yan “Refractive Index Sensing using Dual-Wavelength Fiber Laser Based on Thinned FBG”, IEEE Sensors Journal, 16 (23), 8463-8467(2016)

[J70] L.-Y. Shao*, Y. P.  Zhang, Z. L. Li, Z.Y. Zhang, X.H. Zou, B. Luo, W. Pan, and L.S. Yan, “Enhanced performance for differential detection in coherent Brillouin optical time-domain analysis sensors”, Opt. Eng. 55(11), 117101 (2016)

[J69] L.-Y. Shao*, X. Zhang, H. He, Z. Zhang, X. Zou, B. Luo, W. Pan, and L. Yan, "Optical Fiber Temperature and Torsion Sensor Based on Lyot-Sagnac Interferometer," Sensors 16, 1774 (2016). 

[J68] Y. Guo, L. Yan, W. Pan, and L.-Y. Shao, "Scattering engineering in continuously shaped metasurface: An approach for electromagnetic illusion," Scientific Reports 6, 30154 (2016).

[J67] J. Zhao, B. Luo, W. Pan, L. Yan, L.-Y. Shao, X. Zou, J. Ye, H. Zhu, and Z. Chen, "Characterization of a FM actively mode-locked fiber optical parametric oscillator," JOSA B 33, 1382-1387 (2016).

[J66] P. Wang, K. Xie, R.  !E font-size: 16px; text-decoration: underline; -webkit-font-kerning: none;">L.-Y. Shao*, L. Yan, H. Liu, and M. Zhang, "Test Verification and Application of a Longitudinal Temperature Force Testing Method for Long Seamless Rails Using FBG Strain Sensor," Journal of Sensors 2016:3917604 (2016).

[J65] H. He, L.-Y. Shao*, Z. Li, Z. Zhang, X. Zou, B. Luo, W. Pan, and L. Yan, "Self-Mixing Demodulation for Coherent Phase-Sensitive OTDR System," Sensors 16, 681 (2016).

[J64] H. He, L.-Y. Shao*, B. Luo, Z. Li, X. Zou, Z. Zhang, W. Pan, and L. Yan, "Multiple vibrations measurement using phase-sensitive OTDR merged with Mach-Zehnder interferometer based on frequency division multiplexing," Optics Express 24, 4842-4855 (2016).

[J63] Z. Li, L. Yan, L.-Y. Shao*, W. Pan, B. Luo, J. Liang, and H. He, "Coherent BOTDA Sensor With Single-Sideband Modulated Probe Light," IEEE Photonics Journal 8, 1-8 (2016).

[J62] Z. Li, L. Yan, L.-Y. Shao*, W. Pan, B. Luo, J. Liang, H. He, and Y. Zhang, "Precise Brillouin gain and phase spectra measurements in coherent BOTDA sensor with phase fluctuation cancellation," Optics Express 24, 4824-4833 (2016).

[J61] X. Zou, X. Liu, W. Li, P. Li, W. Pan, L. Yan, and L.-Y. Shao, "Optoelectronic Oscillators (OEOs) to Sensing, Measurement, and Detection," IEEE Journal of Quantum Electronics 52, 0601116 (2016).

[J60] P. Wang, K. Xie, L.-Y. Shao*, L. Yan, J. Xu, and R. Chen, "Longitudinal force measurement in continuous welded rail with bi-directional FBG strain sensors," Smart Materials and Structures 25, 015019 (2015)

[J59] X. Zou, W. Li, B. Lu, W. Pan, L. Yan, and L.-Y. Shao, "Photonic approach to wide-frequency-range high-resolution microwave/millimeter-wave Doppler frequency shift estimation," Microwave Theory and Techniques, IEEE Transactions on 63, 1421-1430 (2015).

[J58] Y. Xing, X. Zou, W. Pan, L. Yan, B. Luo, and L.-Y. Shao, "Analysis of stationary power/amplitude distributions for multiple channels of sampled FBGs," Applied Optics 54, 7054-7061 (2015).

[J57] Z. Li, L. Yan, L.-Y. Shao, W. Pan, and B. Luo, "Enhanced performance in coherent BOTDA sensor with reduced effect of chromatic dispersion," Optics Express 23, 30483-30490 (2015).

[J56] Z. Li, L. Yan, L.-Y. Shao, W. Pan, and B. Luo, “Coherent BOTDA sensor with intensity modulated local light and IQ demodulation”, Opt. Express, vol. 23, no. 12, pp. 16407-16415 (2015).

[J55] L.-Y. Shao*, Y. Luo, Z. Zhang, X. Zou, B. Luo, W. Pan, and L. Yan, "Sensitivity-enhanced temperature sensor with cascaded fiber optic Sagnac interferometers based on Vernier-effect," Optics Communications 336, 73-76 (2015).

[J54] Z.-L. Li, L.-S. Yan, Y.-L. Peng, W. Pan, B. Luo, L.-Y. Shao, "Enhanced Phase Stability in Passive Analog Photonic Links with Coherent Rayleigh Noise Reduction," Opt. Express, vol. 23, no. 5, pp.5744-5748, (2015).

[J53] K. Yu, C. Wu, M. Sun, C. Lu, H.-Y. Tam, Y. Zhao, and L.-Y. Shao, "Fiber laser sensor for simultaneously axial strain and transverse load detection," Measurement 62, 137-141(2015).

[J52] X. Zou, M. Li, W. Pan, B. Luo, L. Yan, and L.-Y. Shao, "Optical length change measurement via RF frequency shift analysis of incoherent light source based optoelectronic oscillator," Optics Express 22, 11129-11139 (2014).

[J51] Z. Li, L. Yan, Y. Peng, W. Pan, B. Luo, and L.-Y. Shao, "Phase fluctuation cancellation of anonymous microwave signal transmission in passive systems," Optics Express 22, 19686-19691 (2014).

[J50] L. -Y. Shao*, J. Canning, T. Wang, K. Cook, and H. Y. Tam, "Viscosity of silica optical fibres characterized using regenerated gratings," Acta Materialia 61, 6071-6081 (2013).

[J49] L.-Y. Shao*, M.J. Yin, H.-Y. Tam, J. Albert, “Fiber Optic pH Sensor with Self-Assembled Polymer Multilayer Nanocoatings”, Sensors 13, 1425-1434 (2013).

[J48] J. Zheng, X. !E style="font-size: 16px; text-decoration: underline; -webkit-font-kerning: none;">L.-Y. Shao, C. C. Chan, Y. Cui, and P. P. Shum, "Magnetic field sensor using tilted fiber grating interacting with magnetic fluid," Opt. Express 21, 17863-17868 (2013).

[J47] Y. Zheng, X. Dong, C. Zhao, Y. Li, L.-Y. Shao, and S. Jin, "Relative Humidity Sensor Based on Microfiber Loop Resonator," Advances in Materials Science and Engineering 2013, 4 (2013).

[J46] T. Wang, L.-Y. Shao, J. Canning, and K. Cook, "Regeneration of fiber Bragg gratings under strain," Applied Optics 52, 2080-2085 (2013).

[J45] M. Yin, C. Wu, L.-Y. Shao, W. K. E. Chan, A. P. Zhang, C. Lu, and H. Tam, "Label-free, disposable fiber-optic biosensor for DNA hybridization detection," Analyst (2013).

[J44] J. Albert, L.-Y. Shao, and C. Caucheteur, “Tilted Fiber Bragg Gratings Sensors,” Laser & Photonics Reviews 7, 83-108 (2013).(特邀综述论文)

[J43] T. Wang, L.-Y. Shao, J. Canning, and K. Cook, "Temperature and strain characterization of regenerated gratings," Opt. Lett. 38, 247-249 (2013).

[J42] X. Dong, L. Hu, L.-Y. Shao, Y. Wang, and J. Zheng, "Temperature-insensitive 2D fiber Bragg grating TILT sensor," Microwave and Optical Technology Letters 55, 344-346 (2013).

[J41] L.-Y. Shao*, T. Wang, J. Canning, K. Cook, and H.-Y. Tam, "Bulk regeneration of optical fiber Bragg gratings," Appl. Opt. 51, 7165-7169 (2012).

[J40] K. Cook, L.-Y. Shao, and J. Canning, "Regeneration and helium: regenerating Bragg gratings in helium-loaded germanosilicate optical fibre," Opt. Mater. Express 2, 1733-1742 (2012) 

[J39] W. Zhou, Y. Zhou, X. Dong, L.-Y. Shao, J. Cheng, and A. Jacques, "Fiber-Optic Curvature Sensor Based on Cladding-Mode Bragg Grating Excited by Fiber Multimode Interferometer," IEEE Photon. J. 4, 1051-1057 (2012).

[J38] L.-Y. Shao*, M. B. Jakubinek, T. Sun, B. Simard and J. Albert, “Four-wave mixing in carbon nanotube-coated optical fiber gratings,” Applied Physics Letters 100, 071108-071103 (2012)

[J37] X.Y. Dong, Y. Liu, L.-Y. Shao, J. Kang, and C. L. Zhao, “Temperature-Independent Fiber Bending Sensor Based on a Superimposed Grating,” IEEE Sensors Journal, vol.11, no.11, pp.3019-3022, Nov. 2011

[J36] Y. Zhou, W. Zhou, C. C. Chan, W. C. Wong, L.-Y. Shao, J. Cheng, and X. Dong, “Simultaneous measurement of curvature and temperature based on PCF-based interferometer and fiber Bragg grating,” Optics Communications 284, 5669-5672, September 2011.

[J35] W. Zhou, W. C. Wong, C. C. Chan, L.-Y. Shao, and X. Dong, “Highly sensitive fiber loop ringdown strain sensor using photonic crystal fiber interferometer,” Appl. Opt. 50, 3087-3092, July 2011.

[J34] L.-Y. Shao, J. P. Coyle, S. T. Barry, and J. Albert, “Anomalous permittivity and plasmon resonances of copper nanoparticle conformal coatings on optical fibers,” Opt. Mater. Express 1, 128-137, May 2011

[J33] W. J. Zhou, X. Y. Dong, L.-Y. Shao, C. C. Chan, C. L. Zhao, and P. Shum, “Compact refractometer based on extrinsic-phase-shift fiber Bragg grating,” Sensors and Actuators A-Physical 168, 46-50, 2011.

[J32] L.-Y. Shao and J. Albert, “Lateral force sensor based on a core-offset tilted fiber Bragg grating,” Optics Communications, 284 (7), 1855-1858, April 2011. 

[J31] M. Li, L.-Y. Shao, J. Albert and J. P. Yao, “Tilted fiber Bragg grating for chirped microwave waveform generation,” IEEE Photonics Technology Letters. 23, 314-316 (2011).

[J30] M. Li, L.-Y. Shao, J. Albert and J. P. Yao, “Continuously tunable photonic fractional temporal differentiator based on a tilted fiber Bragg grating,” IEEE Photonics Technology Letters 23 (4), 251-253, Feb 2011. 

[J29] C. Caucheteur, Y. Shevchenko, L.-Y. Shao, M. Wuilpart, and J. Albert, “High resolution interrogation of tilted fiber grating SPR sensors from polarization properties measurement,” Opt. Express 19(2), 1656-1664, Jan 2011 

[J28] L.-Y. Shao, Q. Jiang, and J. Albert, “Fiber optic pressure sensing with conforming elastomers”, Applied Optics, Vol. 49, Iss. 35, pp. 6784-6788, 10 December 2010 

[J27] H. L. Bao, X.Y. Dong, L.-Y. Shao, C.-L. Zhao, S.Z. Jin, “Temperature-insensitive 2-D tilt sensor by incorporating fiber Bragg gratings with a hybrid pendulum”, Optics Communications, Volume 283, Issue 24, Pages 5021-5024, 15 December 2010. 

[J26] L.-Y. Shao, L.Y. Xiong, C. K. Chen, A. Laronche, J. Albert, “Directional Bend Sensor Based on Re-grown Tilted Fiber Bragg Grating,” Journal of Lightwave Technology, vol.28, no.18, pp.2681-2687, Sept.15, 2010 

[J25] L. Li, X. Y. Dong, L.-Y. Shao, C. L. Zhao, and Y. L. Sun. “Temperature-independent acceleration measurement with a strain-chirped fiber Bragg grating”, Optoelectronics and Advanced Materials-Rapid Communications 4(7): 943-946, July 2010. 

[J24] H. L. Bao, X. Y. Dong, L.-Y. Shao, C.-L. Zhao, C. C. Chan, and P. Shum, “Temperature-Insensitive 2-D Pendulum Clinometer Using Two Fiber Bragg Gratings,” IEEE Photonics Technology Letters, vol.22, no.12, pp.863-865, June 15, 2010 

[J23] L.-Y. Shao, Y. Shevchenko and J. Albert, “Intrinsic temperature sensitivity of tilted fiber Bragg grating based surface plasmon resonance sensors”, Opt. Express 18 (11), 11464-11471, May 2010. 

[J22] L.-Y. Shao, and J. Albert, “Compact fiber-optic vector inclinometer,” Opt. Lett. 35 (7), 1034-1036, March 2010 (Nature Photonics 作为研究亮点报导)

[J21] L.-Y. Shao, A. Laronche, M. Smietana, P. Mikulic, W.J. Bock, and J. Albert, “Highly sensitive bend Sensor with hybrid long-period and tilted fiber Bragg grating”, Optics Communications, vol. 283, no. 13, pp. 2690-2694, 2010. 

[J20] N. Ni, C.C. Chan, W.C. Wong, L.-Y. Shao, X.Y. Dong, P. Shum, “Cavity ring-down long period grating pressure sensor”, Sensors and Actuators A: Physical, Volume 158, Issue 2, Pages 207-211, Mar 2010 

[J19] H. Bao, X. Dong, C. Zhao, L.-Y. Shao, C.C. Chan and P. Shum, “Temperature-insensitive FBG tilt sensor with a large measurement range,” Optics Communications, vol. 283(6), pp. 968-970, Mar 2010

[J18] T. Guo, L.-Y. Shao, H.-Y. Tam, P. A. Krug, and J. Albert. “Tilted fiber grating accelerometer incorporating an abrupt biconical taper for cladding to core recoupling”, Optics Express, 17 (23): 20651-20660, Nov 2009 

[J17] X. Dong, L.-Y. Shao, P. Shum, et al. “Hybrid fiber grating-based optical comb filters with changeable channel numbers”, Journal of Optoelectronics and Advanced Materials,11 (7): 1015-1019, JUL 2009 

[J16] L.-Y. Shao, J. Zhao, X. Dong, H. Y. Tam, C. Lu, and S. He. “Long-Period Grating Fabricated by Periodically Tapering Standard Single-Mode Fiber”, Appl. Opt. 47 (10), 1549-1552, Apr 2008. 

[J15] L.-Y. Shao, S.-T. Lau, X.Y. Dong, et al. “High Frequency Ultrasonic Hydrophone Based on a Cladding-Etched DBR Fiber Laser”, IEEE Photonics Technology Letters, 20 (8): 548-550 April 15 2008 

[J14] S.T. Lau, L.-Y. Shao, H.L.W Chan, et al. “Characterization of a 40 MHz Focused Transducer with a Fiber Grating Laser Hydrophone”, IEEE Ultrasonics, Ferroelectrics and Frequency Control (IEEE UFFC), 55(12): 2714-2718, DEC 2008. 

[J13] H. Y. Fu, H. Y. Tam, L.-Y. Shao, X. Dong, P. K. A. Wai, C. Lu, and S. K. Khijwania, “Pressure sensor realized with polarization-maintaining photonic crystal fiber-based Sagnac interferometer”, Appl. Opt., vol. 47, no. 15, pp. 2835-2839, May 2008. 

[J12] X.Y. Dong, L. Y. Shao, H. Y. Fu, H. Y. Tam, and C. Lu, “Intensity-modulated fiber Bragg grating sensor system based on radio-frequency signal measurement”, Optics Letters, Vol.33, Issue. 5, pp. 482-484, Mar 2008

[J11] L.-Y. Shao, Xinyong Dong and Hwa-Yaw Tam, “Fiber Optic Load Sensor Based on a Polarimetric DBR Fiber Laser”, Electronics letters, vol. 44, no. 2, pp. 99-100, Jan 2008. 

[J10] X.-F. Huang, Z.-M. Chen, L.-Y. Shao, et al. “Design and characteristics of refractive index sensor based on thinned and microstructure fiber Bragg grating”, Applied Optics, Vol. 47 Issue 4, pp.504-511, Feb 2008. 

[J9] J.H. Yan, A.P. Zhang, L.-Y. Shao, et al. “Simultaneous measurement of refractive index and temperature by using dual long-period gratings with an etching process”, IEEE Sensors Journal 7 (9-10): 1360-1361 SEP-OCT 2007

[J8] L.-Y. Shao, X.Y. Dong, A.P. Zhang, et al. “High-resolution strain and temperature sensor based on distributed Bragg reflector fiber laser”, IEEE Photonics Technology Letters, 19 (17-20): 1598-1600 SEP-OCT 2007 

[J7] H.Y. Fu, W.S. Liu, L.-Y. Shao, “Tunable flat-top fiber Bragg grating filters fabricated in hydrogen-loaded graded-index multimode fibers”, Microwave and Optical Technology Letters,Vol.49, Issue 4 , Pages 841-843, Feb 2007 

[J6] <span style="font-size: 16px