陈向飞


教授


办公室地址：唐仲英楼A320


办公室电话：


Email：chenxf@nju.edu.cn



实验室主页：???http://mwp.nju.edu.cn/member.html

研究方向：

通讯用DFB半导体激光器以及多波长阵列、光子集成回路、光纤传感与微波光子学。

开设课程：

光通信技术、光纤技术与应用

个人简介：

陈向飞，1996年7月博士毕业于南京大学物理系和固体微结构物理国家重点实验室。1996—1999年在南京邮电学院从事光纤通信研究；2000年8月在清华大学电子工程系工作，副教授；2006年5月受聘为南京大学微结构国家实验室（筹）和现代工程与应用科学学院教授，博士生导师。创建微波光子技术实验室，他是中国光学学会和中国通信学会的高级会员，美国光学学会和美国电气和电子工程师协会(IEEE)的高级会员，2011年任国际微波光子学大会（MWP 2011）的技术委员会的委员。在南京大学工作以来，已经取得的主要学术业绩：（1）发明了基于自主重构-等效啁啾技术（Reconstruction-equivalent-chirp，REC技术）的半导体激光器，以此研制出单片集成阵列激光器，原型器件波长数创造出国内新记录；（2）研制出具有国际水准的一种全新双极性光CDMA编码器，并采用普通设备实现了创记录的1023码片的光CDMA编解码器；（3）提出了基于REC技术，采用拼接模板实现长光纤布拉格光栅的方法。
主要研究兴趣：
半导体激光器在光通讯系统中具有发动机的功能，是关键是器件之一课题组的研究主要集中在DFB半导体激光器以及多波长阵列，包括可调谐激光器、窄线宽激光器，高波长精度的激光器阵列，以及它们的产业化。目前课题组已经实现了多种半导体激光器的可实用化样机，并与华为、中兴以及武汉华工正源等知名企业展开了合作；也许国际一流的研究机构，比如比利时根特大学，瑞典皇家工学院，台湾中山大学等展开了一系列的合作研究。在这方面，课题组的目标是研制具有自主知识产权的激光器芯片，并实现国产化。课题组也集中在光子集成芯片的系统应用方面展开了研究，比如快速可调谐激光器与光交换系统等等。此外，课题组在微波光子学和光纤传感研究上展开了研究并取得了很好的研究成果。

科研成果：
文章：
1.High channel count and high precision channel spacing multi-wavelength laser array for future PICs
Yuechun Shi, Simin Li, Xiangfei Chen, Lianyan Li, Jingsi Li, Tingting Zhang, Jilin Zheng, Yunshan Zhang, Song Tang, Lianping Hou, John H. Marsh and Bocang Qiu
Scientific Reports4, (2014)07377
2.Multi-wavelength distributed feedback laser array with very high wavelength-spacing precision
Jun Lu, Shengping Liu, Qi Tang, Haiming Xu, Yutao Chen, Xiangfei Chen
Optics Letters40.22 (2015): 5136-5139
3.Photonic-assisted microwave frequency multiplication with a tunable multiplication factor Liang Gao, Weilin Liu, Xiangfei Chen, and Jianping Yao
Optics Letters.38(21), (2013)4487-4490 .
4.Experimental demonstration of eight-wavelength distributed feedback semiconductor laser array using equivalent phase shift
Yuechun Shi,Xiangfei Chen, Yating Zhou, Simin Li, Linlin Lu,Rui Liu, and Yijun Feng
Optics Letters, 37(16), (2012)3315-3317.
5.Polarization-modulated analog photonic link with compensation of the dispersion-induced power fading
Haiting Zhang, Shilong Pan, Menghao Huang, and Xiangfei Chen
Optics Letters, 37(5), (2012)866-868
6.Asymmetrical Sampling Structure to Improve the Single-Longitudinal-Mode Property Based on Reconstruction-Equivalent-Chirp Technology
Yating Zhou, Yuechun Shi, Simin Li, Shengchun Liu and Xiangfei Chen
Optics Letters.18, (2010)3123-3125
7.Multi-longitudinal mode fiber laser for strain measurement
Shengchun Liu, Zuowei Yin, Liang Zhang, Liang Gao, Xiangfei Chen and Jianchun Cheng
Optics Letters. 6, (2010)835-837
8.Wideband multichannel dispersion compensation based on a strongly chirped sampled Bragg grating and phase shifts
Yitang Dai*, Xiangfei Chen, Jie Sun, and Shizhong Xie
Optics Letters.3, (2006)311-313
9.Ultra-narrow dual-transmission band fiber Bragg grating filter and its application in a dual-wavelength single-longitudinal-mode fiber ring laser
Xiangfei Chen, Jianping Yao, and Zhichao Deng
Optics Letters. 16, (2005)2068-2070
10.Sampled Bragg grating with desired response in one channel by use of a reconstruction algorithm and equivalent chirp
Yitang Dai *, Xiangfei Chen , Li Xia, Zhang Yejin, and Shizhong Xie
Optics Letters. 12, (2004) 1333-1335
11.Microwave photonic filter with multiple independently tunable passbands based on a broadband optical source
Long Huang, Dalei Chen, Fangzheng Zhang, Peng Xiang, Tingting Zhang, Peng Wang, Linlin Lu, Tao Pu, and Xiangfei Chen
Optics Express23, (2015)25539-25552
12.Frequency tunable optoelectronic oscillator based on a directly modulated DFB semiconductor laser under optical injection
Peng Wang, Jintian Xiong, Tingting Zhang, Dalei Chen, Peng Xiang, Jilin Zheng, Yunshan Zhang, Ruoming Li, Long Huang, Tao Pu, and Xiangfei Chen
Optics Express23(16), (2015)20450-20458
13.Study on sampled waveguide grating with antisymmetric periodic structure
Lijun Hao, Yuechun Shi, Rulei Xiao, Yajuan Qian and Xiangfei Chen
Optics Express23(12), (2015)15784-15791
14.Real time interrogation technique for fiber Bragg grating enhanced fiber loop ringdown sensors array
Yunlong Zhang,Ruoming Li,Yuechun Shi,Jintao Zhang, Xiangfei Chen and Shengchun Liu
Optics Express23(11), (2015)14245-14251
15.StudyonDFBsemiconductorlaserarrayintegratedwithgratingreflectorbasedonreconstruction-equivalent-chirptechnique YunshanZhang,JilinZheng,FangzhengZhang,YuechunShi,JunshouZheng,JunLu,ShengpingLiu,BocangQiuandXiangfeiChen
Optics Express,23(3),(2015)2889-2894
16.Multiplexed multi-longitudinal mode fiber laser sensor
Long Huang, Peng Wang,Liang Gao,Tingting Zhang and Xiangfei Chen
Optics Express22(21), (2014)25722-25728
17.Experimental demonstration of DFB semiconductor lasers with varying longitudinal parameters
Simin Li, Renjia Guo, Lianyan Li, Yuechun Shi, Jun Lu, Linlin Lu, Junshou Zheng, and Xiangfei Chen
Optics Express22(4), (2014)4059-4064
18.Fabry-Perot cavity based on chirped sampled fiber Bragg gratings
Jilin Zheng, Rong Wang, Tao Pu, Lin Lu, Tao Fang, Weichun Li, Jintian Xiong, Yingfang Chen, Huatao Zhu, Dalei Chen, and Xiangfei Chen
Optics Express22(3),(2014) 2782-2789
19.A novel concavely apodized DFB semiconductor laser using common holographic exposure
Yuechun Shi, Simin Li, Renjia Guo, Rui Liu, Yating Zhou, and Xiangfei Chen
Optics Express21(13), (2013)16022-16028
20.Experimental demonstration of the three phase shifted DFB semiconductor laser based on Reconstruction-Equivalent-Chirp technique
Yuechun Shi, Xiangfei Chen, Yating Zhou, Simin Li, Lianyan Li, and Yijun Feng
Optics Express, 20(16), (2012)17374-17379
21.Multimode fiber laser for simultaneous measurement of strain and temperature based on beat frequency demodulation
Liang Gao, Lin Chen, Long Huang, and Xiangfei Chen
Optics Express, 20(20), (2012)22517-22522
22.Influence of large signal modulation on photonic UWB generation based on electro-optic modulator
Rong Gu, Shilong Pan, Xiangfei Chen,Minghai Pan, and De Ben
Optics Express, 19(14),（2011）13686-13691. Reference citation: 3, Impact Factor: 3.587
23.Phase-controlled superimposed FBGs and their applications in spectral-phase en/decoding Jilin Zheng, Rong Wang, Tao Pu, Lin Lu, Tao Fang, Yang Su, Ling Li, and Xiangfei Chen
Optics Express, 19(9),2011）8580-8595.
24.Fabricating fiber Bragg gratings with two phase masks based on reconstruction-equivalent-chirp technique
Liang Gao, Xiangfei Chen, Jintian Xiong, Shengchun Liu, and Tao Pu
Optics Express, 20(3), (2012)2240-2245.
25.A novel beat-noise-reducing en/decoding technology for a coherent 2-D OCDMA system
Jilin Zheng, Rong Wang, Tao Pu, Lin Lu, Tao Fang, Yun Cheng, and Xiangfei Chen
Optics Express.21, (2009)19264-19277
26.Jingsi Li, Huan. Wang, Xiangfei Chen, Zuowei Yin, Yuechun. Shi, Yanqing Lu, Yitang Dai and Hongliang. Zhu
Optics Express. 7, (2009)5240-5245
27.DFB semiconductor lasers based on reconstruction-equivalent-chirp technology
Yitang Dai and Xiangfei Chen
Optics Express. 5, (2007)2348-2353
28.Thermally tunable dispersion compensator in 40-Gb/s system using FBG fabricated with linearly chirped phase mask
Jie Sun*, Yitang Dai, Xiangfei Chen, Yejin Zhang and Shizhong Xie
Optics Express. 1, (2006)44-49
29.Chirped and phase-sampled fiber Bragg grating for tunable DBR fiber laser
Ximing Xu*, Yitang Dai, Xiangfei Chen, and Shizhong Xie
Optics Express. 13, (2005)3877-3882
30.Simultaneous Measurement of Force and Temperature by a Multi-Position Fiber Loop Ringdown Sensor Array
Ruoming Li, Chao Tian, Yunlong. Zhang, Jintao. Zhang, Xiangfei. Chen, and Shengchun. Liu
Journal of Lightwave Technology, IEEE.33(17), (2015)3607-3612
31.Study of the Multiwavelength DFB Semiconductor Laser Array Based on the Reconstruction-Equivalent-Chirp Technique
Yuechun Shi, Simin Li, Lianyan Li, Renjia Guo, Tingting Zhang, Rui Liu, Weichun Li, Linlin Lu, Song Tang, Yating Zhou, Jingsi Li, and Xiangfei Chen
Journal of Lightwave Technology, IEEE31(20), (2013)3243-3250
32.Fiber ring laser sensor for temperature measurement
Zuowei Yin, Liang Gao, Shengchun Liu, Liang Zhang, Feixiang Wu, Lin Chen and Xiangfei Chen
Journal of Lightwave Technology，IEEE. 23, (2010)3403-3408
33.Study on two-section DFB lasers and laser arrays based on the reconstruction equivalent chirp technique and their application in radio-over-fiber systems
Yunshan Zhang, Jilin Zheng, Yuechun Shi, Yajuan Qian, Junshou Zheng, Fangzheng Zhang, Peng Wang, Bocang Qiu，Jun Lu, Wenxuan Wang and Xiangfei Chen
IEEE Journal of Selected Topics in Quantum Electronics21(6), (2015)**
34.Microwave Photonic Filter With Two Independently Tunable Passbands Using a Phase Modulator and an Equivalent Phase-Shifted Fiber Bragg Grating
Liang Gao, Jiejun Zhang, Xiangfei Chen, and Jianping Yao
IEEE Transactions on Microwave Theory and Techniques 62(2), (2014)380-387
35.Vector Signal Generation Using a Polarization and a Phase Modulator in a Sagnac Loop
Ruming Li, Xiuyou Han, Xiangfei Chen, Jianping Yao
IEEE Photonics Technology Letters27.18 (2015): 1961-1964.
36.Tunable Optoelectronic Oscillator Using FWM Dynamics of an Optical-Injected DFB Laser Tingting Zhang, Jintian Xiong, Peng Wang, Jilin Zheng, Fangzheng Zhang, Tao Pu and Xiangfei Chen
IEEE Photonics Technology Letters. 27(12),(2015) 1313-1316
37.A matrix-grating equivalent phase shifted laser array with 25-nm wavelength tuning range Song Tang, Jun Lu, Lianyan Li, Haiming Xu, Qi Tang and Xiangfei Chen
IEEE Photonics Technology Letters. 27(5), (2015)530-533
38.An Eight-Wavelength BH DFB Laser Array With Equivalent Phase Shifts for WDM Systems
Jingsi Li, Song Tang, Jeffery Wang, Yue Liu, Xiangfei Chen, and Julian Cheng
IEEE Photonics Technology Letters.26(16), (2014)1593-1596.
39.Photonic Generation of a Phase-Coded Microwave Waveform With Ultrawide Frequency Tunable Range
Liang Gao, Xiangfei Chen, and Jianping Yao
IEEE Photonics Technology Letter25(10), (2013)899-902.
40.Dual Wavelength Semiconductor Laser Based on Reconstruction-Equivalent-Chirp Technique
Simin Li, Ruoming Li, Lianyan Li, Rui Liu, Liang Gao, and Xiangfei Chen
IEEE Photonics Technology Letter25(3),(2013) 299-302.
41.OCDMA En/Decoders Employing Multiple pEquivalent Phase Shifts
Yun Cheng, Jingsi Li, Zuowei Yin, Tao Pu, Lin Lu, Jilin Zheng and Xiangfei Chen
IEEE Photonics Technology Letters.24, (2009)1795-1797
42.A multi-exposure technology for sampled Bragg gratings and its applications in dual-wavelength lasing generation and OCDMA en/decoding
Jingsi Li, Yun Cheng, Zuowei Yin, Linghui Jia, Xiangfei Chen, Shengchun Liu, Simin Li and Yanqing Lu
IEEE Photonics Technology Letters.21, (2009)1639-1641
43.Experimental demonstration of distributed feedback semiconductor lasers based on reconstruction-equivalent-chirp technology
44.Optical Arbitrary Waveform Generation Based on Sampled Fiber Bragg Gratings
Yitang Dai, Xiangfei Chen, Heng Ji, and Shizhong Xie
IEEE Photonics Technology Letters.13,(2007)1916-1918
45.Novel Encoder/Decoder Using Subsampled Bragg Grating for a WDM-Compatible OCDMA System
Tao Pu, Yingxun Zhu, Peng Chen, Xiangfei Chen, Lin Lu, Rong Wang, Yuquan Li Jilin Zheng
IEEE Photonics Technology Letters. 22, (2007)1807-1809
46.Real-Time Monitoring Sensor System for Fiber Bragg Grating Array
Shengchun Liu, Youlong Yu, Jintao Zhang andXiangfei Chen
IEEE Photonics Technology Letters.19, (2007)1493-1495
47.Stable Dual-Wavelength DFB Fiber Laser With Separate Resonant Cavities and Its Application in Tunable Microwave Generation
Jie Sun, Yitang Dai, Xiangfei Chen, Yejin Zhang, and Shizhong Xie
IEEE Photonics Technology Letters.24, (2006)2587-2589
48.Dual-Wavelength DFB Fiber Laser Based on Unequalized Phase Shifts
Jie Sun, Yitang Dai, Yejin Zhang, Xiangfei Chenand Shizhong Xie
IEEE Photonics Technology Letters.18, (2006)1964-1966
49.Dispersion compensation based on sampled fiber Bragg gratings fabricated with reconstruction equivalent-chirp method
Yitang Dai*, Xiangfei Chen, Jie Sun, Yu Yao, and Shizhong Xie
IEEE Photonics Technology Letters.18, (2006)941-943
50.Dual-wavelength Erbium-doped fiber laser with a simple linear cavity and its application in microwave generation”, IEEE Photonics Technology Letters
Yu Yao*, Xiangfei Chen, Yitang Dai and Shizhong Xie
IEEE Photonics Technology Letters. 1, (2006)187-189
51.High channel count comb filter based on chirped sampled fiber Bragg grating and phase shift
Yitang Dai*, Xiangfei Chen, Ximing Xu and Shizhong Xie
IEEE Photonics Technology Letters.5, (2005)1040-1042
52.A Novel Distributed Feedback Fiber Laser Based On Equivalent Phase Shift
Dianjie Jiang*, Xiangfei Chen, Yitang Dai, Liu Haitao and Shizhong Xie
IEEE Photonics Technology Letters. 12, (2004)2598- 2600
53.Equivalent phase shift in a fiber Bragg grating achieved by changing the sampling period
Yitang Dai*, Xiangfei Chen, Dianjie Jiang, Shizhong Xie, and Chongcheng Fan
IEEE Photonics Technology Letters.10, (2004)2284 - 2286
54.Tunable dispersion compensation in a 10Gb/s optical transmission system by employing a new tunable dispersion compensator
Xiangfei Chen, Ximing Xu, Zhou Mingyuan, Dianjie Jiang, Xuhui Li，Jia Feng and Shizhong Xie
IEEE Photonics Technology Letters. 1, (2004)188－190
55.Analytical expression of sampled Bragg gratings with chirp in the sampling period and its application in dispersion management design in a WDM system
Xiangfei Chen, Yi Luo, Chongcheng Fan, Wu Tong and Shizhong Xie
IEEE Photonics Technology Letters.12, (2000)1013-1015
56.Novel flat multichannel filter based on strongly chirped sampled fiber Bragg grating
Xiangfei Chen, Chongcheng Fan, Luo Yi, Shizhong Xie, and Hu Sai
IEEE Photonics Technology Letters.12, (2000)1501-1503
57.Experimental Demonstration of a Multicorrugation-Pitch-Modulated (MCPM) DFB Semiconductor Laser Based on Reconstruction-Equivalent-Chirp Technology
Jinlin Zhen, Yunshan Zhang, Yuechun Shi, Weichun Li, Bocang Qiu, Jun Lu, Tingting Zhang, Xiangfei Chen
IEEE Photonics Journal7.4 (2015): 1-9
58.Monolithically Integrated Four-Channel DFB Semiconductor Laser Array With an Equivalent-Distributed Coupling Coefficient
Junshou Zheng, Yuechun Shi, Yunshan Zhang, Jilin Zheng, Jun Lu and Xiangfei Chen
IEEE Photonics Journal7(3),(2015)**
59.Improved Single Mode Property of DFB Semiconductor Laser Based on Sampling Technique Using Chirp Compensation
Yuechun Shi, Jilin Zheng, Naizhuo Jiang, Lianyan Li, Yunshan Zhang, Bocang Qiu and Xiangfei Chen
IEEE Photonics Journal7(1), (2015)**
60.An Equivalent-Asymmetric Coupling Coefficient DFB Laser with High Output Efficiency and Stable Single Longitudinal Mode Operation
Junshou Zheng, Nannan Song, Yunshan Zhang, Yuechun Shi, Song Tang, Lianyan Li, Renjia Guo and Xiangfei Chen
IEEE Photonics Journal6(6), (2014)**
61.16-Wavelength DFB Laser Array With High Channel-Spacing Uniformity Based on Equivalent Phase-Shift Technique
Yuechun Shi, Lianyan Li, Jilin Zheng, Yunshan Zhang, Bocang Qiu and Xiangfei Chen
IEEE Photonics Journal6(6), DOI:10.1109/JPHOT.2014.**, (2014)**
专利:
中国发明专利：
1.名称：基于重构-等效啁啾的非对称相移和等效切趾取样光栅及其DFB激光器
专利号：CN7.6
发明人：郑俊守，陈向飞，唐松，张云山，李思敏，施跃春
2.名称：基于重构-等效啁啾的单片集成注入锁定DFB激光器及阵列及其制造方法
专利号：CN5.6
发明人：张云山，陈向飞，郑吉林
3.名称：集成调制器的低成本可调谐DFB半导体激光器及制备方法
专利号：CN9.7
发明人：唐松，李连艳，陈向飞
4.名称：基于重构-等效啁啾的非对称等效切趾取样光栅及激光器
专利号：CN1.9
发明人：郑俊守，陈向飞，唐松，李思敏，张云山
5.名称：基于叠印啁啾结构的DFB半导体激光器及激光器阵列
专利号：CN0.X
发明人：郑吉林，李玮淳，陈向飞
6.名称：基于重构-等效啁啾以及串联/并联混合集成技术的低成本可调谐半导体激光器的方法及装置
专利号：CN8.8
发明人：李连艳，唐松，陈向飞，张云山，陆骏
7.名称：基于重构-等效啁啾以及串联技术的低成本可调谐半导体激光器的方法及装置
专利号：CN0.5
发明人：李连艳，唐松，陈向飞， 张云山，陆骏
8.名称：基于重构-等效啁啾和等效半边切趾的DFB半导体激光器及制备方法
专利号：CN0.3
发明人：郑俊守，陈向飞，李连艳
9.名称：基于重构-等效啁啾技术的非对称相移布拉格光栅及其激光器
专利号：CN8.4
发明人：唐松，陈向飞，李静思
10.名称：多周期调制结构分布反馈半导体激光器及方法
专利号：CN8.3
发明人：李玮淳，郑吉林，施跃春，张云山，唐松，陈向飞
11.名称：基于重构——等效啁啾的非对称结构的DFB半导体激光器及制备
专利号：CN8.X
发明人：施跃春，陈向飞，郭仁甲
12.名称：相移电控制取样光栅半导体激光器及其设置方法
专利号：ZL1.9
发明人：周亚亭，陈向飞
13.名称：一种多波长分布反馈式半导体激光器装置及其制作方法
专利号：CN4.6
发明人：周亚亭，陈向飞
14.名称：基于重构等效啁啾技术的长光纤光栅制作方法
专利号：ZL5.1
发明人：高亮，陈向飞，刘胜春
15.名称：基于特殊等效相移的DFB半导体激光器
专利号：ZL9.1
发明人：周亚亭，施跃春，李思敏，贾凌慧，刘盛春，陈向飞
16.名称：基于重构-等效啁啾和等效切趾的平面波导布拉格光栅及其激光器
专利号：ZL6.9
发明人：施跃春，陈向飞，李思敏，李静思，贾凌慧，刘盛春
17.名称：单片集成半导体激光器阵列的制造方法及装置
专利号：ZL2.0
发明人：李静思，贾凌慧，陈向飞
18.名称：两次及多次曝光采样布拉格光栅及制作方法
专利号：ZL4.2
发明人：李静思，陈向飞，殷作为，程赟，贾凌慧，张 亮，陆延青
19.名称：基于重构-等效啁啾技术制备半导体激光器的方法及装置
专利号：ZL8.9
发明人：陈向飞
20.名称：40Gb/s光通信系统用的非线性啁啾光纤光栅制作方法
专利号：ZL1.6
发明人：孙杰，戴一堂，张冶金，陈向飞，谢世钟
21.名称：分布反馈式光波导激光器
专利号：CN9.3
发明人：陈向飞，姜典杰，戴一堂，谢世钟
22.名称：可调谐色散补偿器的设计与制作方法
专利号：CN9.8
发明人：姜典杰，陈向飞，戴一堂，夏历，谢世钟
23.名称：一种实现具有任意目标响应的光纤光栅
专利号：CN0.5
发明人：戴一堂，陈向飞，夏历，姜典杰，谢世钟
24.名称：用振幅模板实现具有目标反射响应的光纤光栅的制作方法
专利号：CN7.0
发明人：戴一堂，陈向飞，谢世钟
25.名称：DS-OCDMA系统编码解码所用的采样光纤光栅及其制作方法
专利号：CN6.X
发明人：戴一堂，陈向飞，谢世钟

26.名称：一种基于光纤光栅的多信道滤波器制作方法
专利号：CN8.0
发明人：戴一堂，陈向飞，徐锡铭，谢世钟
27.名称：光学梳状滤波器
专利号：WO2001CN01
发明人：陈向飞，谢世钟，范崇澄，李栩辉
28.名称：用于补偿色散和偏振模弥散的具有新取样结构的布拉格光栅
专利号：ZL**.8
发明人：冯佳，陈向飞，李栩辉，谢世钟
29.名称：变占空比的取样光纤光栅及其切趾方法
专利号：CN**.1
发明人：陈向飞，殷玉喆，李栩辉，王国忠，谢世钟
30.名称：任意切趾的光纤光栅的制作方法及其系统
专利号：CN**.1
发明人：林宗强，陈向飞，殷玉喆，毛晋，谢世钟
31.名称：宽光谱紫外光源制作长周期光纤光栅方法
专利号：CN**.3
发明人：李栩辉，谢世钟，岳超瑜，陈向飞
32.名称：平坦交叉群组滤波器
专利号：CN**.3
发明人：陈向飞，谢世钟，范崇澄，李栩辉
美国发明专利：
1.Xiangfei Chen, Distributed feedback semiconductor laser based on reconstruction-equivalent-chirp technology and the manufacture method of the same, US** B2.
2.Yuechun Shi, Xiangfei Chen, Method for manufacturing multi-dimensional target waveguide grating and volume grating with micro-structure quasi-phase-matching,USA1.
其他：
作为课题负责人承担了4项科技部863计划项目，主要参与2项，承担了国家自然科学基金重大项目课题和面上课题3项。在IEEE Photonics Technology Letters、Optics Letters、Optics Express等国际一流学术期刊上发表论文150多篇。2006年入选教育部“新世纪优秀人才支持计划”，2003年获首届中国通信学会科学技术奖二等奖 （第一完成人）。
招收和培养研究生情况以及学生获得的荣誉：
江苏省优秀硕士学位论文奖：
李静思（2010年）《基于重构等效啁啾技术的半导体激光器及阵列研究》

指导博士论文：
1.Studies on the characters of large chirped fiber grating
Xia Li(2004)
2.Research on the theory and application of the novel fiber bragg grating
Dai Yitang(2006)
3.Fiber laser sensor based on beat frequency demodulation method
Liu Shengchun(2011)
4.Novel waveguide grating technology and its application in the wavelength division multiplexing photonic integrated circuits
Shi Yuechun (2012）
5.The research on the novel distributed feedback semiconductor laser and laser array
Zhou Yating(2012)
6.Study on fiber lasers and mid-infrared semiconductor lasers and their sensing applications
Yin Zuowei (2012)
7.Applications of microwave photonic technology and fiber Bragg gratings in microwave and sensing systems
Gao Liang（2014）
8.Study on DFB semiconductor laser based on reconstruction-equivalent-chirp technique and photonic integrated device
Li Simin（2014）
9.Study on 1.3um DFB semiconductor laser and laser array based on the reconstruction-equivalent-chirp technique
Lu Linlin（2014）
10.Studyontunablesemiconductorlasersandphotonicintegrateddevices
Li Lianyan （2015）
11.Bi-directional use of phase modulators incorporated in a Sagnac loop
Li Ruoming（2015）

指导硕士论文：
1.Study on fiber grating for multichannel dispersion slope compensation in optical fiber communication system
Lin Zongqiang(2002)
2.Study on tunable dispersion-slope compensator in high-speed optical communication system
Wang Peng(2005)
3.Theoretical study and experimental fabrication of phase-sampled fiber bragg grating
Xu Ximing(2005)
Dual-wavelength fiber lasers based on equivalent phase shift
Jia Linghui (2011)
4. Dual-wavelength fiber laser sensor based on beat frequency modulation technology
Zhang Liang (2011)
5. High-performance analog photonic links based on polarization modulation
Hai-Ting Zhang (2013)
6.The sensing technical research and application based on fiber grating devices
Lin Chen (2013)
7.High-performance Optoelectronic Oscillator
Shuhong Cai (2013)
8.Research on single-mode and multi-mode semiconductor lasers with special structure
Weichun Li (2014)
9.Systematic test and application of the Reconstruction-Equivalent-Chip, Distributed-Feed-Back laser diode
Lei Qian (2014)
10.Research on Superimposed Sampled Fiber Bragg Grating Based En/Decoding Technology of Optical Code Division Mutiple Access Systems
Qian Yang (2014)
11.Studies on the Waveguide Bragg Grating of Weak Refractive Index
Rui Liu (2014)
12.Study on Packaging of Tunable DFB Laser Module Based on Reconstruction Equivalent Chirp Technique
Baoli Cao (2015)
13.Package Design of Multi-wavelength Laser Module
Nannan Song (2015)
14. Full-duplex ROF transmission and down-conversion technologies
Tingting Zhang (2015)
15.The Optimization of semiconductor Lasers Based on Equivalent Phase Shift Technique and Its Applications
Song Tang (2015)
16.Tunable DFB Laser and Its Controlling Circuit
Xia Duotian(2015)
17.Study of Design and Test of DFB Semiconductor Lasers Based on Reconstruction Equivalent Chirp Technology
Zhang Libo（2016）
18.Optically-injected DFB semiconductor laser based optoelectronic oscillator and upconversion system
Wang Peng(2016)
19.Study on tunable laser based on reconstruction-equivalent-chirp technique
Chen Ting(2016)