办公电话:51684776 电子邮件: shqlou@bjtu.edu.cn
通讯地址:北京交通大学电子信息工程学院 邮编:100044
教育背景
2001.09-2005.04 北京交通大学通信与信息系统专业 在职攻读博士学位,2005年4月获得工学博士学位
1986.09-1989.03 哈尔滨工业大学电子物理与器件专业 攻读硕士学位,1989年3月获得工学硕士学位
1982.09-1986.07 哈尔滨工业大学精密仪器系 攻读学士学位,1986.07获得工学学士学位
工作经历
1998.11-至今 北京交通大学电子信息工程学院
1996.10-1998.11 中科院大连化学物理研究所
1989.03-1996.09 郑州轻工业学院自动控制系
2003.01-2003.06 英国Macnchester University高级访问学者
2013.01-2013.06 英国Southampton University高级访问学者
工作经历
1998.11-至今 北京交通大学电子信息工程学院 1996.10-1998.11 中科院大连化学物理研究所 1989.03-1996.09 郑州轻工业学院自动控制系 2003.01-2003.06 英国Macnchester University高级访问学者 2013.12-2014.06 英国Southampton University高级访问学者 2015.8-2015.9 英国Southampton University高级访问学者
研究方向(顺序不分先后)
宽带移动通信系统与专用移动通信
电子与通信工程(专业学位)
光电功能材料与器件
招生专业
电子信息工程学院:通信与信息系统硕士
电子信息工程学院:通信与信息系统博士
电子信息工程学院:电子与通信工程(专业学位)硕士
电子信息工程学院:电子科学与技术硕士
科研项目
国家自然科学基金“面上”:系列超宽带双芯光子晶体光纤及相关器件研究,2012-01-01--2015-12-31,71.0万元,主持
国家自然科学基金“面上”:一体化高功率掺铥光纤激光器的关键技术研究,2010-01-01--2012-12-31,43.0万元,主持
国家自然科学基金“面上”:色散、色散斜率一体化宽带补偿光子晶体光纤的研制及其应用研究,2008-01-01--2010-12-31,30.0万元,主持
教育部“重大”:新型分布式波分纤分全光交换网结构及关键技术器件的研究,2008-01-01--2010-12-31,50.0万元,主持
基本科研业务费:新型抗弯曲大模场面积光子晶体光纤的研究,2014-01-01--2014-12-31,3.0万元,参加
基本科研业务费:基于非线性旋转效应多波长光纤激光器的研究,2014-01-31--2015-01-31,1.0万元,参加
基本科研业务费:一种基于交叉相位调制的时间透镜的4-f系统,2011-11-01--2012-11-01,1.0万元,参加
基本科研业务费:一种超宽带双芯光子晶体光纤的研制,2011-12-01--2012-12-01,1.0万元,参加
北京交通大学:混合信息的获取与处理方法研究,2011-06-01--2013-12-31,10.0万元,主持
基本科研业务费:新一代光路交换网络关键技术研究,2009-12-01--2012-12-31,10.0万元,主持
其它:全光网络与现代通信网教育部重点实验室2009年运行经费,2009-01-01--2009-12-31,30.0万元,主持
其它:全光网络与现代通信网教育部重点实验室运行和开放经费,2008-12-19--2009-03-31,10.0万元,主持
红果园:专项任务,2009-01-01--2010-12-31,6.0万元,主持
其它:全光网络与现代通信网教育部重点实验室管理费,2007-12-18--2008-12-18,2.0万元,主持
其它:全光网络与现代通信网教育部重点实验室管理费,2007-12-18--2008-12-18,1.0万元,主持
校科技基金:海底预警光缆系统,2007-01-01--2008-07-01,30.0万元,主持
校科技基金:带隙型Terahertz波导的研究,2006-01-01--2007-12-31,3.0万元,主持
国家自然科学基金:基于失配耦合多芯光纤光栅的复用/解复用器,2003-01-12--2005-12-31,22.0万元,参加
校科技基金:光子晶体的研究,2002-06-12--2004-08-12,40.0万元,参加
北京交通大学:七号信令网关的研究与实践,2000-10-01--2001-12-01,15.0万元,参加
教育部:信号与信息处理技术在医学中应用研究,2000-01-12--2001-12-12,18.0万元,参加
教学工作
一直在教学一线从事教学及科研工作,主讲研究生课程“光电子器件理论与技术”、本科生必修课“数字电子与技术”,2008年获北京交通大学教学名师,主持的数字电子技术双语课程2010年被评为国家双语示范建设项目课程,是数字电子技术、模拟电子技术课程的优秀主讲教师,主持国家级、省部级及校级教改项目10余项,发表教学改革论文10余篇,获得教学奖励20余项。
学术成果
期刊论文
共发表论文200余篇,其中SCI论文80余篇,EI论文百余篇,获得国家专利授权14项,获国家软件著作权20余项。
代表性SCI期刊论文:
[1] Yan Shen, Shuqin Lou, Xin Wang, Novel Estimation Method of Point Spread Function Based on Kalman Filter for Accurately Evaluating Real Optical Properties of Photonic Crystal Fibers, Applied Optics, 2014 已录用
[2] Zhijun wang, Shuqin Lou, Panlai Li, Luminescent properties and energy transfer of Sr3La(PO4)3:Sm3+, Eu3+ for white LEDs, Journal of Alloys and Compounds, 2014,Vol.586, 536-541
[3] Wenliang Lu, Shuqin Lou, Xin Wang, Liwen Wang, and Ruijuan Feng, Ultrabroadband polarization splitter based on three-core photonic crystal fibers, Applied Optics, 2013, Vol.52, 449-455
[4] Xin Wang, Shuqin Lou, Wenliang Lu, Bending Orientation Insensitive Large Mode Area Photonic Crystal Fiber With Triangular Core, IEEE Photonics Journal , 2013,Vol.5, 7100408,
[5] Xin Wang, Shuqin Lou, Wenliang Lu, Bend-resistant Large-mode-area Photonic Crystal Fiber with a Triangular-core, Applied Optics, 2013, Vol.52, 4323-4328
[6] Bo Li, Shuqin Lou, Elimination of Aberrations Due to High-Order Terms in Systems Based on Linear Time Lenses, Jounal of Lightwave Techology, 2013, Vol.31, 2200
[7] Bo Li, Ming Li, Shuqin Lou, José Aza?a, Linear optical pulse compression based on temporal zone plates, Optics Express, 2013, Vol. 21, 16814.
[8] Hui Zou, Shuqin Lou, Guolu Yin, and Wei Su, Switchable Dual-Wavelength PM-EDF Ring Laser Based on a Novel Filter, IEEE Photonics Technology Letters, 2013, Vol. 25, 1003-1006.
[9] Hui Zou,Shuqin Lou , GuoluYin, A wavelength-tunable fiber laser based on a twin-core fiber comb filter, Optics &Laser Technology, 2013,Vol. 45, 629–633
[10] Hui Zou, Shuqin Lou, Wei Su, and Guolu Yin, A Stable and Tunable Linear-Polarization Fiber Ring Laser With a High SMSR by Using a Compounded Fiber Filter, IEEE Photonics Journal, 2013, Vol. 5, 7100709
[11] Hui Zou, Shuqin Lou, Wei Su, Xin Wang, A dual-pass Mach–Zehnder interferometer filter using a TCF loop mirror for double-wavelength fiber lasers, Applied Physics B: Lasers and Optics, 2013, Vol. 112, 441-452
[12] Hui Zou, Shuqin Lou,Wei Su, Xin Wang and Bolin Han, Stable multi-wavelength PM-EDF linear cavity laser employing a TCF fiber comb filter and an SNOLM, Laser Physics, 2013, Vol.23, 105103
[13] Guolu Yin, Shuqin Lou, Hui Zou, A multiwavelength Er-doped fiber laser using a nonlinear optical loop mirror and a twin-core fiber-based Mach–Zehnder interferometer, Laser Physics Letters, 2013, Vol.10, 045103
[14] Guolu Yin, Shuqin Lou, Qi Li, and Hui Zou, Theory analysis of mode coupling in tilted long period fiber grating based on the full vector complex coupled mode theory, Optics & Laser Technology, 2013, Vol. 48, 60-66.
[15] Guolu Yin, Shuqin Lou, and Hui Zou, Refractive index sensor with asymmetrical fiber Mach-Zehnder interferometer based on concatenating single-mode abrupt taper and core-offset section, Optics & Laser Technology, 2013,Vol. 45, 294-300.
[16] Guolu Yin, Shuqin Lou, Wenliang Lu, Xin Wang, A high sensitive fiber curvature sensor using twin core fiber-based filter, Applied Physics B: Lasers and Optics, 2013, Vol. 10, 1007
[17] Guolu Yin, Shuqin lou, Xin Wang, Bolin Han, Tunable multi-wavelength erbium-doped fiber laser by cascading a standard Mach–Zehnder interferometer and a twin-core fiber-based filter, Laser Physics Letter 2013, Vol. 10, 125110
[18] Wenliang Lu, Shuqin Lou, and Xin Wang, Ultra-broadband polarization splitter based on a modified three-core photonic crystal fiber, Applied Optics, 2013, Vol. 52, 8494-8500
[19] Xinzhi Sheng, Zhen Feng, Bing Li, Experimental investigation of all-optical packet-level time slot assignment using two optical buffers cascaded, Applied Optics, 2013, Vol.52, 2917-22
[20] Bolin Han, Shuqin Lou, Wenliang Lu, Wei Su, Hui Zou, Xin Wang, Novel ultraltra-broadband polarization beam splitter based on dual-core photonic crystal fiber, Acta Phys. Sin., 2013, Vol. 62, 244202
[21] Shuqin Lou, Wenliang Lu, Xin Wang, A novel bend-resistant large-mode-area photonic crystal fiber, Acta Phys. Sin., 2013, Vol. 62, 044201
[22] Shuqin Lou, Wenliang Lu, Xin Wang, A side-leakage photonic crystal fiber torsion sensor for measuring torsion angle and determining torsion direction simultaneously, Acta Phys. Sin., 2013, Vol. 62, 090701
[23] Shuqin Lou, Xin Wang, Wenliang Lu, Design and fabrication of a novel side-leakage photonic crystal fiber and its propagation properties, Acta Phys. Sin., 2013, Vol. 62 084216
[24] Shuqin Lou, Xin Wang, Guolu Yin, Bolin Han, Curvature sensor based on side-leakage photonic crystal fiber with high sensitivity and broad linear measurement range, Acta Phys. Sin., 2013, Vol. 62, 194209
[25] Xin Wang, Shuqin Lou, Wenliang Lu, Novel bend-resistant large-mode-area photonic crystal fiber with a triangular-core, Acta Phys. Sin., 2013, Vol. 62 44225
[26] Xinzhi Sheng, Shuqin Lou, Guolu Yin, Wenliang Lu, Xin Wang, A high-compatibility low-bending-loss photonic crystal fiber with standard single mode fiber, Acta Phys. Sin., 2013, Vol. 62, 104217
[27] Bo Li and Shuqin Lou, Time-frequency conversion, temporal filtering, and temporal imaging using graded-index time lenses, Optics Letters, 2012, Vol. 37, 3981-3983
[28] Weiguo Chen, Shuqin Lou, Liwen Wang, Shuisheng Jian, Switchable multi-wavelength fiber ring laser using a side-leakage photonic crystal fiber based filter, Optics & Laser Technology, 2012, Vol.44, 611-616
[29] Wei Su, Shuqin Lou, Wenliang Lu, Theoretical analysis of structure, thermodynamic properties, and optical properties of Ge-doped amorphous SiO2, Physica B, 2012, Vol.407,953–957
[30] Wei Su, Shuqin Lou, Guolu Yin,Theoretical Study of the Structural and Thermodynamic Properties of Amorphous SiO2 and Amorphous SiO2 with an Oxygen Defect Center, Chinese Physics Letters, 2012, Vol. 29, 066202
[31] Wenliang Lu, Suqin Lou, Liwen Wang, and Weiguo Chen,Method of assisting the fabrication process of holey fiber based on combination model of digital image processing and finite element method, Chinese Journal of Lasers, 2012, Vol.39, 105011
[32] Zhen Feng, Xinzhi Sheng, Chongqing Wu, Zhengyong Li, Yaya Mao. All-Optical Time Slot Interchange Using a Cascaded Optical Buffer, Chinese Physics Letters, 2012, Vol. 29, 084203
[33] Xiaoyong Chen, Xinzhi Sheng, Chongqing Wu, Influence of Multi-Cascaded Semiconductor Optical Amplifiers on the Signal in an Energy-Efficient System, Chinese. Physics. Letters, 2012, Vol.29, 014204
[34] Bo Li, Shuqin Lou, Zhongwei Tan, Wei Su, Two kinds of optical pulse compression approaches based on cross phase modulation, Acta Phys. Sin., 2012, Vol. 61, 194203-1~7
[35] Bo Li,Zhongwei Tan,Xiaoxing Zhang,Simulation and analysis of time lens using cross phase modulation and four-wave mixing, Acta Phys. Sin., 2012, Vol. 61, 014203
[36] Liwen Wang, Shuqin Lou, Weiguo Chen, Wenliang Lu, Xin Wang,Design and optimization of a novel broadband and polarization-insensitive dual-core photonic crystal fiber coupler over the whole optical communication band, Acta Phys. Sin., 2012, Vol. 61, 154207-1~10
[37] Weiguo Chen, Shuqin Lou, Liwen Wang, Shuisheng Jian, Highly Sensitive Torsion Sensor Based on Sagnac Interferometer Using Side-leakage Photonic Crystal Fiber, IEEE Photonics Technology Letters, 2011, Vol. 23, 1639-1641
[38] Shuqin Lou, Zunwei Tang, Liwen Wang, Design and optimization of broadband and polarization-insensitive dual-core photonic crystal fiber coupler, Applied Optics, 2011, Vol. 50, 2016~2023
[39] Guolu Yin, Xiaozhen Wang, and Xiaoyi Bao,Effect of beam waists on performance of the tunable fiber laser based on in-line two-taper Mach–Zehnder interferometer filter, Applied Optics, 2011, Vol. 50, 5714
[40] Guolu Yin, Bhavaye Saxena, and Xiaoyi Bao, Tunable Er-doped fiber ring laser with single longitudinal mode operation based on Rayleigh backscattering in single mode fiber, Optics Express, 2011,Vol.19, 25981
[41] Bo Li, Zhongwei Tan, Xiaoxing Zhang, Experiment and simulation of time lens using electro-optic phase modulation and cross phase modulation, Acta Phys. Sin., 2011, Vol. 60, 084204
[42] Chunxi Zhang, Sheng Liang, Xiujuan Feng, Wentai Lin, Chen Li, Qin Li, Xiang Zhong, Lijing Li, Spectrums and Influences of Rayleigh and stimulated Brillouin scattering on fiber-optic distributed disturbance sensor, Spectroscopy and Spectral Analysis, 2011, Vol. 31, 1862-1867
[43] Xiujuan Feng, Chunxi Zhang, Sheng Liang, Chuansheng Li, Chaoyang Zhang, A novel digital active homodyne demodulation scheme based on square wave phase modulation for interferometric fiber-optic sensors, Microwave and Optical Technology Letters, 2011, Vol.53, 20
[44] Wentai Lin, Chunxi Zhang, Lijing Li, Sheng Liang, Qin Li, Xiang Zhong, Novel fiber-optic distributed disturbance sensor using a modified phase generation carrier technique, Advanced Materials Research, 2011, Vol. 282, 697-701
[45] Bo Lin, Swee Chuan Tjin, Han Zhang, Dingyuan Tang, Sheng Liang, Jianzhong Hao, Bo Dong, Dual-wavelength single-longitudinal-mode erbium-doped fiber laser based on inverse-Gaussian apodized fiber Bragg grating and its application in microwave generation, Optical Fiber Technology, 2011, Vol. 17, 120-123
[46] Liwen Wang, Shuqin Lou, Weiguo Chen, Honglei Li,Design of a single-polarization single-mode photonic crystal fiber with a near-Gaussian mode field and wide bandwidth,Applied Optics, 2010, Vol. 49, 6196~6200.
[47] Weiguo Chen, Shuqin Lou, Liwen Wang, Shuisheng Jian,Novel modal interferometer based on ring-core photonic crystal ?ber, Chinese Optics Letters, 2010, Vol. 8, 986~988
[48] Weiguo Chen, Shuqin Lou, Liwen Wang, Shuisheng Jian, Ring-core photonic crystal ?ber interferometer for strain measurement,Optical Engineering, 2010, Vol. 49, 094402
[49] Weiguo Chen, Shuqin Lou, Shuchun Feng, Liwen Wang, Honglei Li, Tieying Guo, Shuisheng Jian,Switchable multi-wavelength fiber ring laser based on a compact in-fiber Mach-Zehnder interferometer with photonic crystal fiber, Laser Physics, 2009, Vol. 19, 2115-2119.
[50] Lei Yao, Shuqin Lou, Shuisheng Jian, The Second Order Guided Modes Based on Photonic Bandgap Effects in Air Glass Photonic Crystal Fibers, Chinese Physics Letters, 2009, Vol. 26, 124212
[51] Lei Yao, Shuqin Lou, Shuisheng Jian, Analysis and Simulation of Adiabatic Bend Transitions in Optical Fibers, Chinese Physics Letters, 2009, Vol. 26, 074213
[52] Tieying Guo, Shuqin Lou, Honglei Li, Shuisheng Jian, Capillary drawing for fabrication of photonic crystal fiber: theoretical calculation and experiments,Acta Phys. Sin,, 2009, Vol. 58, 352-358
[53] Tieying Guo, Shuqin Lou, Honglei Li, Shuisheng Jian, Control of the fabrication parameters during the fabrication of photonic crystal fibers, Acta Phys. Sin., 2009, Vol. 58, 412-419
[54] Shuqin Lou, Hong Fang, Honglei Li, Tieying Guo, Lei Yao, Liwen Wang, Weiguo Chen, Shuisheng Jian, Design of broadband nearly-zero flattened dispersion highly nonlinear photonic crystal fiber, Chinese Optics Letters, 2008, Vol. 6, 821-823
[55] Hong Fang, Shuqin Lou, Tieying Guo, Lei Yao, Honglei Li, Shuisheng Jian, A simple model for approximate bandgap structure, Chinese Physics B, 2008, Vol. 17,232-237
[56] Hong Fang, Shuqin Lou, Tieying Guo, Shuisheng Jian, Highly birefringent honeycomb photonic bandgap fiber, Chinese Physics Letters, 2007, Vol.24, 1294-1297
[57] Shuqin Lou, Hong Fang, Tieying Guo, Shuisheng, Jian, Investigation on the Fabrication of Photonic Crystal Fibre, Chinese Physics Letters, 2006, Vol. 23 860
[58] Shuqin Lou, Tieying Guo, Hong Fang, Honglei Li, Shuisheng Jian, A New Type of Terahertz Waveguides, Chinese Physics Letters, 2006, Vol.23, 235
[59] Shuqin Lou, Zhi Wang, Guobing Ren, Shuisheng Jian, An Efficient Algorithm for Modeling Photonic Crystal Fibers, Optical Fiber Technology, 2005, Vol.11, 34-45
[60] Shuqin Lou, Wei Jian, Guobin Ren, Shuisheng Jian, An Ultra-Broadband Single-Polarization Single-Mode Photonic Crystal Fiber, Chinese Physics Letters, 2005, Vol.22, 2302
[61] Shuqin Lou, Guobin Ren, Fengpin Yan, Shuisheng Jian, Dispersion and polarization properties of near-rectangle core photonic crystal fibers, Acta Phys. Sin., 2005, Vol. 54, 1229-1234
[62] Shuqin Lou, Zhi Wang, Guobin Ren, Shuisheng Jian, Polatization-maintaining Photonic Crystal Fiber, Chinese Physics, 2004, Vol. 13, 1052-8
[63] Shuqin Lou, Zhi Wang, Guobin Ren, Shuisheng Jian,, Propagation properties of an index guiding high birefringence photonic crystal fiber, Chinese Physics, 2004, Vol. 13, 1493-99
[64] Shuqin Lou, Fengpin Yan, Guobin Ren, Shuisheng Jian, Highly flexible single-polarization single-mode photonic crystal fiber, Chinese Physics Letters, 2004, Vol. 21, 2448-51
[65] Xinzhi Sheng,Shuqin Lou, The Influence of Deformation Holes on the Properties of Photonic Crystal Fiber, Chinese Physics Letters, 2005, Vol.22, 2588-2591
[66] Zhi Wang, Guobin Ren, Shuqin Lou, Weijun Liang, Shangping Guo, Compact supercell method based on opposite parity for Bragg fibers, Optics Express, 2003, Vol. 11, 3542-3549
[67] Zhi Wang, Guobin Ren, Shuqin Lou, Shuisheng Jian, Dependence of mode characteristics on the central defect in elliptical hole photonic crystal fibers, Optics Express, 2003, Vol.11, 1966-1979
[68] Guobin Ren, Zhi Wang, Shuqin Lou, Shuisheng, Jian, Mode classification and degeneracy in photonic crystal fibers, Optics Express, 2003 Vol. 11, 1310-1321
[69] Zhi Wang, Guobin Ren, Shuqin Lou, Shuisheng Jian, Supercell lattice method for photonic crystal fibers, Optics Express, 2003, Vol. 11, 980-991
[70] Zhi Wang, Guobin Ren, Shuqin Lou, Shuisheng Jian, Loss properties due to Rayleigh scattering in different types of fiber, Optics Express, 2003, Vol. 11, 39-47
[71] Zhi Wang, Guobin Ren, Shuqin Lou, Weijun Liang, Investigation of the supercell based orthonormal basis function method for different kinds of fibers, Optical Fiber Technology, 2004, Vol. 10, 296-311
[72] Zhi Wang, Guobin Ren, Shuqin Lou, A novel supercell overlapping method for different photonic crystal fibers, Journal of Lightwave Technolgy, 2004, Vol.22, 903-916
[73] Zhi Wang, Guobin Ren, Shuqin Lou, Mode disorder in elliptical hole PCFs, Optical Fiber Technology, 2004, Vol.10, 124-132
[74] Guobin Ren, Zhi Wang, Shuqin Lou, Yan Liu, Shuisheng Jian, Full-vectorial analysis of complex refractive-index photonic crystal fibers, Optics Express, 2004, Vol. 12 808
[75] Guobin Ren, Zhi Wang, Shuqin Lou, Shuisheng Jian, Analysis of dispersion properties of high-index-core Bragg fibers, Optical Fiber Technoly, 2005, Vol. 11, 81–91
[76] Guobin Ren, Zhi Wang, Shuqin Lou, Shuisheng Jian, Localized orthogonal function model of elliptical-hole photonic crystal fibers, Acta Phys. Sin., 2004, Vol. 53, 484-489
[77] Guobin Ren, Zhi Wang, Shuqin Lou, Shuisheng Jian, Study on mode degeneracy in photonic crystal fibers, Acta Phys. Sin., 2004, Vol. 53, 241-246
[78] Guobin Ren, Zhi Wang, Shuqin Lou, Shuisheng Jian, Dispersion properties of high-index-core Bragg fibers, Acta Phys. Sin., 2004, Vol. 53, 247-252
[79] Guobin Ren, Zhi Wang, Shuqin Lou, Shuisheng Jian, Modal interference in dual-core photonic crystal fibers, Acta Phys. Sin., 2004, Vol. 53, 194-200
著作译著
主编出版教材
[1] 激光原理 2010年6月 清华大学出版社出版 书号:ISBN 978-7-3002-2501-0 北京市精品教材(2011.12.28)
[2] 数字电子技术基础网络课程,2003年11月高教出版社出版,国家新世纪网络工程建设项目资助,书号:ISBN 978-7-89493-264-7;
[3] 数字逻辑与系统教学软件 2003年5月高教出版社出版,北京市现代教育技术在工科基础课教学中的研究与实践研究课题资助,书号:ISBN 978-7-900120-82-3;
[4] 数字逻辑与系统电子教案 2001年铁道出版社出版,书号:ISBN 978-7-113-04193-0。
参编出版教材
[1] 数字电子技术基础重点、难点、题解、试题 2005年4月 高教出版社出版,书号:ISBN 978-7-04-016458-2;
[2] 数字电子技术基础电子教案 2005年9月高教出版社出版,书号:ISBN 978-7-89493-618-9;
[3] 数字逻辑系统解题指导和Fondation操作指南 2001年8月 铁道出版社出版,书号:ISBN 978-7-113-04193-1。
专利
1.娄淑琴;盛新志,一种太赫兹波纤维波导, 200610056742.1,申请日:2006-03-07,授权日:2008-06-18
2.王立文;娄淑琴;陈卫国;李宏雷;苏伟, 迅速优化光子晶体光纤拉制工艺的方法和系统, 201010590664.X, 申请日:2010-12-15,授权日:2012-10-31
3.娄淑琴;鹿文亮;王立文;陈卫国;邹辉, 一种微结构包层单晶光纤及制备方法, 201110241812.1, 申请日:2011-08-22, 授权日:2013-04-24
4.娄淑琴;鹿文亮;王立文;陈卫国;邹辉, 一种具有布拉格结构包层单晶光纤及制备方法, 201110196811.X, 申请日:2011-07-14, 授权日:2012-12-05
5.娄淑琴;方宏;姚磊;郭铁英;李宏雷,一种侧漏型光子晶体光纤及其制备方法, 200710065225.5,申请日:2007-04-06,授权日:2010-08-25
6.陈卫国;娄淑琴;盛新志;王立文;李宏雷;苏伟,用于形成空心光束的光子晶体光纤耦合器及其制备方法,201010149343.6,申请日:2010-04-15,授权日:2011-08-31
7.尹国路;娄淑琴;王立文;陈卫国;苏伟, 含有长周期光纤光栅萨格奈克环的光纤光栅波长解调系统, 201010231143.5, 申请日:2010-07-14,授权日:2011-08-03
8.娄淑琴;张帆;王春灿;耿蕊;陆玉春,一种双包层光纤侧面泵浦耦合体光栅及其实现方法, 200610169808.8,申请日:2006-12-29,授权日:2009-04-22
9.娄淑琴;盛新志,一种提高激光光纤端面输入功率损伤阈值的方法,200610079121.5,申请日:2006-04-29,授权日:2008-02-27
10.娄淑琴;张晓路,多泵浦合束发散控制的大功率多芯掺杂双包层光纤激光器,20112 0378206.X, 申请日:2011-09-29, 授权日:2012-05-30
11.梁生;盛新志;娄淑琴;王思远;陈京惠, 一种光纤分布式扰动传感器模式识别的方法, 201310125329.6, 申请日:2013-04-11 (受理中)
12.梁生;盛新志;娄淑琴;陈京惠;王思远;吴重庆;王智;王健;刘岚岚;李政勇;张丽梅, 一种光纤分布式扰动传感器定位方法, 申请日:2013-02-26 (受理中)
获奖与荣誉
| 序号 | 年份 | 获奖名称 | 获奖等级 |
| 1 | 2012年 | 走内涵发展之路建设“数字电子技术”国家双语课程 | 北京交通大学教学成果一等奖 |
| 2 | 2012年 | 发挥优势 重视短板 构建全日制专业硕士培养模式 | 北京交通大学教学成果二等奖 |
| 3 | 2012年 | 发挥学科优势作用 推进教育国际化建设 | 北京交通大学教学成果二等奖 |
| 4 | 2011年 | 激光原理北京市精品教材 | 北京市 |
| 5 | 2011年 | 北京交通大学巾帼十杰 | 北京交大 |
| 6 | 2009年 | 詹天佑奖科技专项奖 | 铁道部 |
| 7 | 2009年 | “严谨求实创新培养高水平博士生”,北京市教学成果二等奖,排名第二 | 北京市 |
| 8 | 2008年 | 北京交通大学教学名师 | 北京交大 |
| 9 | 2008年 | 国家级教学团队 | 国家 |
| 10 | 2009年 | “数字电子技术课程双语教学的实践” 获北京交通大学教学成果二等奖 | 北京交大 |
| 11 | 2009年 | “高水平博士生培养的探索与实践” 获北京交通大学教学成果一等奖 | 北京交大 |
| 12 | 2009年 | “严把出口关,保证硕士研究生学位论文质量实践” 获北京交通大学教学成果二等奖 | 北京交大 |
| 13 | 2006年 | 电工电子实验中心被评为“国家实验教学示范中心” | 国家 |
| 14 | 2005年 | 电工电子教学基地被评为“北京市教育创新集体” | 北京市 |
| 15 | 2004年 | 承担的国家863计划项目“通信用特种光纤---稀土掺杂光纤”以验收成绩"A"通过863专家组验收,并获得滚动奖励100万。 | 科技部 |
| 16 | 2004年 | 电工电子教学基地被评为“国家优秀教学基地” | 国家 |
| 17 | 2004年 | “数字电子技术基础课程的建设与实践”,北京市教学成果一等奖 | 北京市 |
| 18 | 2004年 | 数字电子技术基础课程建设与实践获北京交通大学优秀教学成果一等奖 | 北京交大 |
| 19 | 2003年 | 数字逻辑与系统获国家首批精品课程 | 国家 |
| 20 | 2001年 | 智谨优秀教师奖 | 北京交大 |
| 21 | 2001年 | 数字逻辑与系统课程的建设与实践获北京市教学成果二等奖 | 北京市 |
| 22 | 2000年 | 北京市青年教师教学基本功比赛二等奖 | 北京市 |
| 23 | 2001年 | 北京交通大学数字逻辑与数字电路课程优秀主讲教师 | 北京交大 |
| 24 | 2000年 | 北京交通大学模拟电子电路课程优秀主讲教师 | 北京交大 |
| 25 | 2000年 | 数字逻辑与系统网络课程获北京交通大学校级教学成果二等奖 | 北京交大 |
| 26 | 2000年 | 电子技术基础系列课程电子教案获北京交通大学校级教学成果二等奖 | 北京交大 |
| 27 | 2000年 | 模拟电子电路课程电子教案被评为优秀电子教案 | 北京交大 |
| 28 | 2000年 | 数字逻辑与系统课程的建设与实践获北方交通大学教学成果一等奖 | 北京交大 |
| 29 | 2006年 | 北京交通大学优秀党员 | 北京交大 |
| 30 | 2000年 | 北方交通大学第四届青年教师基本功比赛一等奖 |
社会兼职
IEEE会员、中国光学工程学会光通信与信息网络技术专委会委员、美国光学学会会员、中国光学学会高级会员、中国通信学会高级会员、中国电子学会研究生分会理事,曾担任15个国际学术会议程序委员会委员、组织委员会主席等,《红外与激光工程》等多个杂志编委, 国际和国内著名刊物IEEE Photon. Tech. Lett, Applied Optics Chin.Phys.Lett,Chinese Physics等刊物特邀评审专家。
