基本信息
·所在系(中心):物理系 王姗姗
·学历:博士 Wang Shanshan
·职称:副教授,硕士生导师
·政治面貌:中共党员
·邮件地址:wangshanshanouc.edu.cn
·办公室:山东省青岛市松岭路 238 号中国海洋大学(崂山校 区) 信息科学与工程学院北楼 B507
课程介绍
大学物理 III,大学物理II,大学物理实验,物理光学
教育及工作经历
教育经历:
2005.9-2010.6 浙江大学现代光学仪器国家重点实验室 工学博士
2010.5-2010.6 瑞典皇家工学院(KTH)交流合作
2001.9-2005.6 青岛大学物理系 物理学学士
工作经历:
2017.1-至今 中国海洋大学信息科学与工程学院物理系 副教授三级
2015.9-至今 硕士研究生指导教师资格
2010.7-至今 中国海洋大学信息科学与工程学院物理系 讲师二级(2010.10)
学术兼职:
2010.1 OpticsExpress 期刊(IF:3.88,TOP 期刊)独立审稿人
2014.10 OpticalMaterials Express 期刊(SCI 二区) 独立审稿人
2015.2IEEE Photonics Technology Letters 期刊(SCI 收录) 独立审稿人2018.6 Journal of LightwaveTechnology 期刊(IF:3.519,TOP 期刊)审稿人2018.10 Sensors & Actuators: B. Chemical 期刊(IF:5.667, TOP 期刊) 审稿人2019.2 Instrumentation Science & Technology 期刊(SCI 收录)独立审稿人2019.2Measurement 期刊(SCI 收录) 独立审稿人
2019.9 IEEE Access 期刊(SCI 二区) 独立审稿人
2019.12 Resultsin Physics 期刊(SCI 二区) 独立审稿人
研究方向
主要从事微纳米光子学,光纤传感。
研究项目
在研主要项目:
1.基于卫星组网的海洋战略通道与战略支点环境安全保障决策支持系统研发与应用,课题 5,国家重点研发计划2018-2020,校负责人,金额 30 万
2.基于高时空分辨率光学遥感图像的第二模态内波探测方法研究,国家自然科学基金面上项目(**),2018-2020,参加,第三位次
3.微纳特种光纤传感的高灵敏度硝酸盐浓度原位探测研究,山东省自然科学基金面上项目(ZR**0040),2017.08-2020.06,参加, 第二位次,金额14万。
已完成主要项目:
1.基于玻璃微纳米光纤与微纳米压印聚合物光纤布拉格光栅复合结构的海水温盐度传感器研究国家自然科学基金青年基金项目(**) 2015-2017,项目负责人,金额 25万
2.基于非线性薛定谔方程的内波 SAR 图像探测模型研究 国家自然科学基金
(**)2011.11-2015.12,参加
3.基于微纳光纤的一种海水折射率实时在线检测技术中央高校青年专项 2011- 2013,项目负责人,金额 10 万
4.基于微纳光纤的海水盐度测量及传感技术研究青岛市科技发展计划 2012- 2014,项目负责人,金额 4 万
学术成果
科研经历与成就:硕博期间就读于浙江大学光学工程学科微纳光子学研究组,导师童利民教授。2010年 6 月获得博士学位,同年进入中国海洋大学工作,开始致力于微光纤在海洋探测方面的发展及应用研究。迄今为止共发表 SCI 论文 30 余
篇,其中以第一或通讯作者在Optics Express(4 篇), Optics Letters(1 篇), IEEE Photonics Journal(1 篇 ), IEEESensors Journal(1 篇 ), Applied Optics(2 篇), Measurement(1 篇),OpticCommunications(1 篇)等主流光学类及仪器仪表类期刊上发表论文十余篇。
教育教学成就:2016 年秋季参加本科教学评估(大学物理III2)位列所在理工科组第一。
论文专利
第一作者/通讯作者发表论文:
1. S. S. Wang, X. Y. Pan,and L. M. Tong, “Modeling of nanoparticle-inducedRayleigh-Gans scattering for nanofiber opticalsensing,”Opt. Commun. 276, 293 (2007).
2. S.S. Wang, J. Fu, M. Qiu, K. J. Huang, Z. Ma, and L. M. Tong,“Modeling endface output patternsof optical micro/nanofibers,”Opt. Express16, 8887 (2008). (TOP 期刊)
3. S.S. Wang, Z. F. Hu, H. K. Yu, W. Fang, M. Qiu, and L. M. Tong,“Endface reflectivities of opticalnanowires,” Opt. Express17, 10881 (2009).(TOP 期刊)
4.S. S. Wang,Z. F. Hu, Y. H. Li, and L. M. Tong, “All-fiber Fabry-Perot resonators based on microfiber Sagnac loop mirrors,” Opt.Lett. 34, 253 (2009). (TOP 期刊)
5. S. S. Wang, J. Wang, G. X. Li, and L. M. Tong,“Modeling optical microfiber loops for seawater sensing,”Appl. Opt. 51, 3017 (2012).
6. G.X. Li, J. Wang, H. J. Yang, Z. T. Su, and S. S. Wang*, “Simulation studyof microring resonator for seawater salinity sensing with weak temperaturedependence,” European PhysicalJournal Applied Physics68, 20502 (2014).
(*通信作者)
7.H. J. Yang, J. Wang, and S. S.Wang*, “ Numerical calculation of temperature sensing in seawater based onmicrofiber resonator by intensity-variationscheme,” Journal of the European Optical Society Rapid Publications 9, 14047(2014). (*通信作者)
8.S. S. Wang,Y. P. Liao, H. J. Yang, X. Wang, and J. Wang, “Modeling seawater salinity andtemperature sensing based on directional coupler assembled by polyimide-coatedmicro/nanofibers,” Appl. Opt. 54, 10283 (2015).
9. S. S. Wang,H. J. Yang, Y. P. Liao, X. Wang,and J. Wang, “High sensitivity salinity and temperaturesensing in seawater based on a microfiber directional coupler, ” IEEE PhotonicsJournal 8, ** (2016).
10. T. Q. Liu, J. Wang, Y. P. Liao, X. Wang, and S.S. Wang*, “All-fiber Mach– Zehnder interferometer for tunable two quasi-continuouspoints ’ temperature sensing in seawater,”Optics Express26(9) 12277-12290 (2018).
(*通信作者,TOP 期刊)
11. S. S. Wang, T. Q. Liu, X. Wang, Y. P. Liao, J. Wang, and J. H. Wen, "Hybrid structure Mach-Zehnderinterferometer based on silica and fluorinated polyimide microfibers fortemperature or salinity sensing in seawater," Measurement 135, 527-536 (2019).
12.T. Q. Liu, J. Wang, Y. P. Liao, L. Yang, and S. S. Wang*,“Splicing point
tapered fiber Mach-Zehnder interferometer forsimultaneous measurement
oftemperature and salinity in seawater,”Optics Express 27, 23905-23918 (2019). (*通信作者,TOP期刊)
13. J.H. Wen, J. Wang, L. Yang, Y. F. Hou, D. H. Huo, E. L. Cai, Y. X. Xiao and S.S. Wang*,“Response time of microfiber temperature sensor in liquidenvironment, ” IEEE Sensors Journal, DOI: 10.1109/JSEN.2020.**. 2020 年出版中 (*通信作者,第一作者为本人指导的卓越工程师计划学生)
14. Y.F. Hou, J. Wang, X. Wang, Y. P. Liao, and S. S. Wang*, “Simultaneousmeasurement of pressure and temperature in seawater with PDMS sealed microfiber Mach-Zehnder interferometer”审稿中(*通信作者)
合作者发表论文:
1. Z. Ma, S. S. Wang, Q. Yang, and L. M. Tong*, “Near-field characterization of optical micro/nanofibers,” Chin. Phys. Lett.24, 3006 (2007).
2. Y.Ding, Q. Yang, X. Guo, S. S. Wang, F. X. Gu, J. Fu, Q. Wan, J. P. Cheng, and L.M. Tong*, “Nanowire microfiber hybrid structure multicolor laser,” Opt. Express17, 21813 (2009).
3. H. K. Yu, S. S. Wang,Y. H. Li, M. Qiu and L. M. Tong*, “Modeling bending losses of optical nanofibers and/or nanowires,” Appl. Opt. 48, 4365 (2009).
4.P. Wang, L. Zhang, Z. Y. Yang, F.X. Gu, S. S. Wang, Q. Yang, and L. M. Tong*, “Fusion spliced microfiberclosed-loop resonators,” IEEE Photon. Tech. Lett. 22, 1075 (2010).
5.Q. Li, S.S. Wang, Y.T. Chen, M.Yan, L. M.Tong, and M.Qiu*, “ Experimentaldemonstration of plasmon propagation, coupling, and splitting in silvernanowire at 1550-nm wavelength, ” IEEE Journal of Selected Topics in QuantumElectronics 17, 1107 (2011).
6. Y. Xiao, C. Meng,P. Wang; Y. Ye, H. K. Yu, S. S. Wang, F. X. Gu, L. Dai, and
L. M. Tong*,“Single-nanowire single-mode laser,” Nano. Lett. 11, 1122 (2011).
7. H.L. Miao, L. N. Sun, Q. Z. Tian, S. S. Wang, and J. Wang*, “Study on the effectof monochromatic light on the growth of the red tide diatom Skeletonemacostatum,” J. Opt. Photon. 2,152 (2012).
8. J. Wang*,S. S. Wang, X. L. Chu, and M. L. Sun, “Numerical study on optical solitons transmission system with40Gbit/s in the photonic crystal fiber,”J. Opt. Photon. 3, 141-146(2013).
9. H. J. Yang, S. S. Wang,X. Wang, Y. P. Liao,J. Wang*, “Temperature sensing in seawater basedon microfiber knot resonator,” Sensors14, 18515(2014).
10.李国祥,王姗姗,杨红绢,王晶*,“嵌入式微纳光纤环形腔的海水盐度传感研究”激光与光电子学进展,51,050603(2014)。
11.基于微纳光纤环形腔的海水与汽油光谱分析王鑫,王晶*,王姗姗,杨红绢 光学学报 34: s206001(2014)
12. H. J. Yang , S. S. Wang , K. N. Mao , G. X. Li , and Jing Wang*, “Numerical Calculation of SeawaterTemperature Sensing Based on Polydimethylsiloxane-Coated Microfiber KnotResonator,”J. Opt. Photon.4,91-97(2014). (Optics and Photonics Journal)
13.X. Wang, H.J. Yang, S. S. Wang, Y.P. Liao, and J. Wang*, “Seawater Temperature Measurement Based on aHigh-Birefringence Elliptic Fiber Sagnac Loop,” IEEE Photonics TechnologyLetters. 27, 1772-1775 (2015).
14.Y. P. Liao, X. Wang, H. J. Yang, S.S. Wang, and J. Wang*,” Resonant Mode Characteristics of Microfiber Knot-TypeRing Resonator and Its Salinity Sensing Experiment,” IEEE Photonics Journal, 7,** (2015).
15. Y. P. Liao, J. Wang*, H. J. Yang,X. Wang, andS. S. Wang, “Salinity sensing
based on microfiber knotresonator,” Sensors and Actuators A 233, 22–25 (2015).
16. Y. P. Liao, J. Wang*, S. S. Wang, H. J. Yang, and X. Wang, “SimultaneousMeasurement of Seawater Temperature and Salinity Based on Microfiber MZInterferometer With a Knot Resonator, ” Journal of Lightwave Technology,34(23), 5378-5384 (2016).
17. H.J. Yang, Y. P. Liao, S. S. Wang, X. Wang, and J. Wang*,“Analysis of microfiberknot resonator spectrum for seawater, ” Spectroscopy and Spectral Analysis,36(8), 2368-2372, (2016).
18.Y. P. Liao, J. Wang*, S. S. Wang,H. J. Yang, and X. Wang, “Spectral characteristics of the microfiber MZinterferometer with a knot resonator,” Optics Communications 389, 253-257 (2017).
19.X. Wang, J. Wang*, S. S. Wang, andY. P. Liao, “Fiber-Optic Salinity Sensing With a Panda-Microfiber-BasedMultimode Interferometer,” IEEE Journal of Lightwave Technology 35, 5086-5091 (2017).
20. X. Wang, J. Wang*, S. S. Wang, Y. P. Liao, and H. J. Yang, “Simultaneousmeasurement of dual-point seawater temperatures using highly- birefringentelliptical-core fibers,” Infrared Physics & Technology 81, 170- 174 (2017).
21. J.Gong, P. Z. Xu, Y. X. Gao, H. Wu, X. Guo, S. S. Wang and L. M. Tong*,"Proposed liquid-cooled nanowire lasers," Optics Express 26,4665-4673 (2018).
22.J. Wang*, Y. P. Liao, S. S. Wang,and X. Wang, "Ultrasensitive optical sensing in aqueous solution based onmicrofiber modal interferometer," Optics Express 26, 24843-24853 (2018).
23.L. Yang, J. Wang*, S. S. Wang, Y.P. Liao, and Y. Li “A new method to improve the sensitivity of nitrateconcentration measurement in seawater based on dispersion turning point,” Optik205: 164202 (2020).
研究生招生条件
硕士研究生招生:有创新意识,能吃苦耐劳,英语基础良好毕业生/在读生情况介绍:
已毕业:硕士生 1 名(刘天琪,2019),本科生 1 名(温家慧,2019);
在读:硕士研究生 4 名(侯云飞、肖羽萱、刘继超、张丽慧),卓越工程师本科
生 1 名(张圣琪)。
