邵理阳的个人简介
邵理阳,博士,西南交通大学教授,硕士生导师。2008年获取浙江大学光电系光学工程博士学位。2001-2003年,先后在深圳昂纳光通信有限公司和杭州聚光科技有限公司任研发工程师。博士期间曾获浙江大学-香港理工大学联合培养项目资助,在香港理工大学合作研究两年(2006-2008)。博士毕业后先后在加拿大卡尔顿大学(2009-2011)、澳大利亚悉尼大学(2012澳大利亚政府奋进奖学金计划)、香港理工大学(2011-2013)从事博士后研究工作。2013年加入西南交通大学信息科学与技术学院,信息光子与通信研究中心。
基本内容
邵理阳,博士,教授。分别于2001年和2008年在浙江大学光电系获光学工程专业学士和博士学位。2001-2003年,先后在深圳昂纳光通信有限公司和杭州聚光科技有限公司任研发工程师。博士期间曾获浙江大学-香港理工大学联合培养项目资助,在香港理工大学合作研究两年(2006-2009)。博士毕业后,先后在加拿大卡尔顿大学(2009-2011)、澳大利亚悉尼大学(2012澳大利亚政府奋进奖学金计划)、香港理工大学(2011-2013)从事博士后研究工作。
2013年加入西南交通大学信息科学与技术学院,信息光子与通信研究中心。主要研究方向有光纤传感技术、光纤光栅的制作与应用、光纤激光器、光子晶体光纤器件、分子自组装光学器件、微纳光纤器件及传感等。目前已在国际主要期刊及会议上发表学术论文共100多篇(第一作者31篇),其中SCI收录68篇,1篇国际杂志特邀综述文章(Laser&Photonics Reviews影响因子:7.796)和4次国际会议特邀报告,论文被他人引用1200多次(其中SCI引用650多次),拥有3项中国发明专利;研究成果“微型光纤矢量倾斜仪”被Nature Photonic(影响因子:29.278)作为研究亮点转载报导。
长期担任多个国际会议技术委员会委员和本领域国际著名SCI期刊Opt.Lett.,Opt.Express,J.Lightwave Technol., Photon. Technol. Lett.等在内的10多种期刊的审稿人。
2014年度入选西南交通大学“扬华之星”人才计划。
现主要研究方向:
(1) 光纤传感技术
(2)光纤光栅的制作与应用
(3) 光纤激光器
(4) 光子晶体光纤器件
(5) 分子自组装光学器件
(6) 微纳光纤器件及传感
(7) 物联网技术
科学研究
主持及参与项目:
国家自然科学基金项目:“于微结构光纤的新型功能器件及传感应用研究”,2015.01-2018.12,批准号:61475128,主持;
科技部国际合作专项:“轨道线路安全监测的光纤传感技术研究”,2014.4-2017.3,项目号:2014DFA11170,主持;
国家自然科学基金项目:“倾斜光纤光栅表面等离子体共振氢气传感器研究”,2011.01-2013.12,批准号:61007050,主持;
香港理工大学研究基金项目:“Fiber Optic Hydrogen Sensor based on Surface Plasmon Resonance”,
批准号:G-YX5C,2011.08-2013.08,主持;
加拿大工业合作项目:“Pressure-Temperature Sensors for Downhole Oil and Gas Applications”,2009-2012,主研;
浙江省自然科学基金杰出青年团队项目(董新永研究团队,编号:R1080087),第三项目承担人;
国家自然科学基金项目:“光纤光栅生化探针及应用研究”,2007.01-2009.12,批准号:60607011,主研;
香港理工大学研究基金项目:“Optical Bioprobes Based on Fibre Grating Technology”,
批准号:G-U263, 2007.08-2008.06,主持;
香港理工大学研究基金项目:“Development of Optical Bioprobes Based on Long-period Fiber Gratings”,
批准号:G-U224,2006.08-2007.08,主研;
学术论文期刊论文:
[J68]Y.Guo,L.Yan,W.Pan,and L. Shao,"Scatteringengineeringincontinuouslyshapedmetasurface:Anapproach
forelectromagneticillusion,"ScientificReports6,30154(2016).
[J67]J.Zhao,B.Luo,W.Pan,L.Yan, L. Shao,X.Zou,J.Ye,H.Zhu,andZ.Chen,"CharacterizationofaFMactively
mode-lockedfiberopticalparametricoscillator,"JOSAB33,1382-1387(2016).
[J66]P.Wang,K.Xie,R.Chen, L. Shao*,L.Yan,H.Liu,andM.Zhang,"TestVerificationandApplicationofa
LongitudinalTemperatureForceTestingMethodforLongSeamlessRailsUsingFBGStrainSensor,"
JournalofSensors2016:3917604(2016).
[J65]H.He, L.Y. Shao*,Z.Li,Z.Zhang,X.Zou,B.Luo,W.Pan,andL.Yan,"Self-MixingDemodulationforCoherent
Phase-SensitiveOTDRSystem,"Sensors16,681(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 OTDRmerged with Mach-Zehnder interferometer based on frequency division multiplexing," Optics
Express 24, 4842-4855 (2016).
[J63] Z. Li, L. Yan, L. 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. Shao*, W. Pan, B. Luo, J. Liang, H. He, and Y. Zhang, "Precise Brillouin gain and phase spectra measurementsincoherent BOTDAsensor 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. Shao, "Optoelectronic Oscillators (OEOs) to Sensing,
Measurement, and Detection,"IEEE JOURNAL OF QUANTUM ELECTRONICS 52, 0601116 (2016).
[J60] P. Wang, K. Xie, L. Shao*, L. Yan, J. Xu, and R. Chen, "Longitudinal force measurement in continuous welded
rail with bi-directional FBGstrain sensors,"Smart Materials and Structures 25, 015019 (2015).
[J59] X. Zou, W. Li, B. Lu, W. Pan, L. Yan, and L. 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. Shao, "Analysis of stationary power/amplitude distributions
for multiple channels ofsampled FBGs,"Applied Optics 54, 7054-7061 (2015).
[J57] Z. Li, L. Yan, L. Shao, W. Pan, and B. Luo, "Enhanced performance in coherent BOTDA sensor with reduced
effect of chromaticdispersion," OpticsExpress 23, 30483-30490 (2015).
[J56] Z. Li, L. Yan, L. 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 opticSagnacinterferometers 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 withCoherentRayleigh 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 loaddetection,"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 ofincoherentlight 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 transmissioninpassive 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. Dong, P. Zu, L.Y. Shao, C. C. Chan, Y. Cui, and P. P. Shum, "Magnetic field sensor using tilted
fiber grating interacting with magnetic fluid,"Optics 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," Appl.
Opt.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 Reviews7,
83-108 (2013). (Invited Review Paper)
[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 TechnologyLetters 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.Express2, 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,” 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,” , 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 andtemperature based on PCF-based interferometer and fiber Bragg grating,”
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 fiberinterferometer,” 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,” 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,” 168, 46-50, 2011.
[J32] L.Y. Shaoand J. Albert, “Lateral force sensor based on a core-offset tilted fiber Bragg grating,”
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,”
.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,” 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,” 19(2), 1656-1664, Jan 2011.
[J28] L.Y. Shao, Q. Jiang, and J. Albert, “Fiber optic pressure sensing with conforming elastomers”, ,
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 hybridpendulum”, , 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 BraggGrating,” , 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”, 4(7):
943-946, July 2010.
[C17] T. Guo, L.Y. Shao, H. Y. Au, et al.“Tilted fiber Bragg grating-based accelerometer”, ,Edinburgh,UK,Paper ID: 7503-106(Proc.of SPIE Vol.7503,750335,Oct 05-09,2009).
[C16] T. Guo, L.Y. Shao, H. Tam, and J. Albert, "Highly Sensitive Fiber-Optic Accelerometer Based on an Offset Tilted
Fiber Bragg Grating,"
,paper TuFF1.
[C15] L.Y. Shao,S.-T.Lau,X.Y. Dong, et al,“High-frequency ultrasound measurement using fiber grating laser hydrophone”,
(APOCu201908), Hangzhou, ID: 7134-141 (Proc. SPIE Vol. 7134, 71343U,
Nov. 11, 2008).
[C14] J. Sun, C. C. Chan, Y. F. Zhang, L. T. Zheng, H. L. Ho, X. Y. Dong, and L. Y. Shao, “Glucose optical biosensor
with sol-gel-coated long- period gratings”, (APOCu201908), Hangzhou,
ID: 7134-150 (Proc. SPIE Vol. 7134, 713443,Nov. 11, 2008).
[C13] Y.F. Zhang, C.C. Chan, J.Sun,L.T. Zheng, H.L. Ho, X.Y. Dong, and L. Y. Shao, “Long period grating glucose
sensor based on sol-gel entrapment technique”, ,
Shenzhen, China, 28-31 July, 2008.
[C12] L.Y. Shao, X. Dong, and H. Y. Tam, “Simultaneous measurement of strain and temperature with polarimetric
DBR fiber laser sensor,” , Shenzhen, China, 28-31
July,2008.
[C11] J.F. Ding, L.Y. Shao, H. Su, S. C. Ruan, “A highly sensitive refractive-index sensor based on the long-period
grating pair with a fiber-taper in-between”, ,
Shenzhen, China, 28-31 July, 2008.
[C10] X. Dong, L.Y. Shao, H.-Y. Tam et al, “Hybrid fiber grating-based optical comb filters”,
, Shenzhen, China, 28-31 July, 2008.
[C9] K. S. Tsang, R. Man, L.Y. Shao, H. Y. Tam, C. Lu, P. K. A. Wai, “Single-frequency single polarization fiber ring
laser at 1053 nm,” ,Australia,(Proceedings of OECC/ACOFT 2008, Vol 1 and 2, pp.508-509,2008.
[C8] L.Y. Shao, J. Zhao, X. Dong, et al. “Long-period grating fabricated using resistive filament heating”, , Australia, paper ID: 7004-198, 2008.
[C7]X. Dong, L.Y. Shao, H. Y. Fu,etal.“FBG sensor interrogation based on RF signal measurement”,
, Pirth, Western Australia, April 14-18, 2008.
[C6] L.Y. Shao, H.Y. Tam, A. P. Zhang,et al.“Multimode-Fiber Taper Interposed Fiber-Bragg Grating Refractometer
for Simultaneous Refractive Index and Temperature Measurement”, ,China,Dec 2007.
[C5] C. Gu, L. Xu, W. H. Chung, L.Y. Shao,et al.“Gain switching of an Yb-doped DFB fiber laser”,
,Beijing, China, 12 November, 2007 ( Proc. SPIE, Vol. 6838, 683808, 2007).
[C4] L.Y. Shao, X. Dong, and H.-Y. Tam, “Transverse-load sensor based on a distributed Bragg reflector fiber laser”,
,p.136-138,Shanghai,China,Oct.17-19,2007.
[C3] L.Y. Shao, S.-T. Lau, X. Dong,et al.“Ultrasonic hydrophone based on etched distributed-Bragg-reflector fiber laser”,
,Session No. 13C3-3, Paper ID: 111,
Yokohama, Japan, July 9-13, 2007.
[C2] L.Y. Shao, A. P. Zhang, J. H. Yan,et al.“Discrimination between refractive index and temperature by using a
sandwiched structure oflong-period gratings”, , Shanghai,
ID: 6019-65 ( ,Vol. 6019, pp.60191S.1-60191S.8, 2005).
[C1]J. H. Yan, A. P. Zhang, L. Y. Shao,et al.“Broadband WDM filter based on an improved long-period grating pair”,
(APOCu201905), Shanghai, ID: 6019-78 (Proceedings of SPIE, Vol. 6019, pp.601925.1-601925.8, 2005).
荣誉奖励
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”
科研团队
Teachers-教师
Professors: Wei Pan(潘炜)、Bin Luo(罗斌)、Lianshan Yan(闫连山)、Xihua Zou(邹喜华)、Zhiyong Zhang(张志勇)、
XinpuZhang(张信普)
Graduates-研究生
Ph.D Candidates: Haijun He(何海军)、Zonglei Li(李宗雷)、HengQian(钱恒)、JiaweiLiang(梁家伟)
Master students:
Grade-2014: Yunpeng Zhang(张云鹏)、Meng Zhang(张萌)
Grade-2015: Zhongyu Li(李忠玉)、Yong Liu(刘勇)、Peng Wang(王鹏)、Jingguo Yang(杨经国)、
Xiaoqiang Zhang(张小强)
Grade-2016:WeiCheng(程炜)、JiannanGuo(郭建南)、ZheLiu(刘哲)、JingmingShi(史镜名)
Alumni:
Grade-2012: Jun Liao(廖俊)、Gaopan Sun(孙高盼)、Hanbin Chen(陈韩彬)
Grade-2013: Yuan Luo(罗源)、Weiwei Huang(黄微卫)、Mengfang Zhu(朱梦芳)