徐飞




徐飞
教授
Email: feixu@nju.edu.cn


研究方向
超小型光纤器件及其在传感和激光技术上的应用,电磁场传感、力学传感、生化传感等;紫外和中红外光纤激光器;光纤微流控;二维材料和波导集成光器件;光学微操纵;微纳米器件的光力和非线性效应;光纤量子光学。
开设课程
光学,光纤技术
个人简介
徐飞,男,南京大学现代工程与应用科学学院教授。2004-2008年就读于英国南安普顿大学光电子研究中心,获工学博士学位。曾获英国海外研究型留学生奖和留学基金委优秀自费留学生奖。2008年底起受聘于南京大学,获得国家基金委“优秀青年基金”,教育部“新世纪人才计划”和江苏省“六大人才高峰计划”资助。
先后主持科技部973课题和基金委自然科学基金重点项目、面上项目等多项省部级项目。研究方向主要为超小型光纤器件及其在传感和激光技术上的应用,微纳米器件的光力和非线性效应,以及基于非线性光子晶体的激光变频和声光电调谐技术等。迄今已发表相关英文专著章节6篇,申请(授权)国内外发明专利>30项,发表SCI论文>90篇,其中第一作者和通讯作者>67篇, 综述2篇,H-index 21,论文被引>1400(WOS)。
科研成果
文章:


 
 

1.         J.-h. Chen, B.-c. Zheng, G.-H. Shao, S.-j. Ge, F. Xu*, and Y.-q. Lu*,”All-optical modulator based on a stereo graphene-microfiber structure,”Light: Science & Applications (in press)

2.         B.-c. Zheng, S.-c. Yan, J.-h. Chen, G.-x. Cui, F. Xu*and Y.-q. Lu“Miniature optical fiber current sensor based on a graphene membrane,” Laser & Photonics Reviews (in press)

3.         S.-c. Yan, B.-c. Zheng, J.-h. Chen, F. Xu*, and Y.-q. Lu,”Optical electrical current sensor utilizing a graphene-microfiber-integrated coil resonator,” Applied Physics Letters, 107, 053502 (2015),

4.         J.-h. Chen, G.-q. Deng, S.-c. Yan, C. Li, K. Xi, F. Xu*and Y.-q. Lu, "Microfiber-coupler-assisted control of wavelength tuning for Q-switched fiber laser with few-layer molybdenum disulfide nanoplates," Optics Letters, 40, 3576-3579 (2015)

5.         S.-C. Yan, Y. Chen, C. Li, F. Xu*, and Y.-q. Lu, " Differential twin receiving fiber-optic magnetic field and electric current sensor utilizing a microfiber coupler," Optics Express, 23,9407 (2015).

6.         W. Luo, F. Xu*, and Y.-q. Lu, " Reconfigurable optical-force-drive chirp and delay line in micro- or nanofiber Bragg grating," Physical Review A, 91, 053831(2015).

7.         Yang Ming, Jie Tang, Zhao-xian Chen, Fei Xu, Li-jian Zhang, and Yan-qing Lu,“Generation of N00N State With Orbital Angular Momentum in a Twisted Nonlinear Photonic CrystalIEEE Journal of Selected Topics in Quantum Electronics 21,6601206(2015).

8.         Peng Chen, Bing-Yan Wei, Wei Ji, Shi-Jun Ge, Wei Hu, Fei Xu, Vladimir Chigrinov, and Yan-Qing Lu, "Arbitrary and reconfigurable optical vortex generation: a high-efficiency technique using director-varying liquid crystal fork gratings," Photon. Res. 3, 133-139 (2015).

9.         J.-l. Kou, F. Xu*, and H. Choo*, "Implementation of a High-Q Small Mode Volume Cavity in Microfibers Using Lattice-Constant-Varying Nanohole Arrays," IEEE Journal of Selected Topics in Quantum Electronics 20, 903104 (2014).

10.      J.-l. Kou, J.-h. Chen, Y. Chen, F. Xu*, and Y.-q. Lu, "Platform for enhanced light-graphene interaction length and miniaturizing fiber stereo-devices," Optica, 1,307 (2014).

11.      Y. Chen, S.-c. Yan, X. Zheng, F. Xu*, and Y.-q. Lu, "A miniature reflective micro-force sensor based on a microfiber coupler," Optics Express22, 2443-2450 (2014).

12.      J.-h. Chen, Y. Chen, W. Luo, J.-l. Kou, F. Xu*, and Y.-q. Lu, "Multifunctional optical nanofiber polarization devices with 3D geometry," Optics Express22, 17890-17896 (2014).

13.      F. Zhou, S.-j. Qiu, W. Luo, F. Xu*, and Y.-q. Lu*, "An All-Fiber Reflective Hydrogen Sensor Based on a Photonic Crystal Fiber In-Line Interferometer," IEEE Sensors Journal14, 1133-1136 (2014).

14.      B.-c. Zheng, W. Luo, F. Xu*, and Y.-q. Lu*, "Influence of van derWaals forces on the waveguide deformation and power limit of nanoscale waveguide devices," Physical Review A89, 043810 (2014).

15.      B.-y. Wei, W. Hu, Y. Ming, F. Xu, S. Rubin, J.-g. Wang, V. Chigrinov, and Y.-q. Lu, "Generating switchable and reconfigurable optical vortices via photopatterning of liquid crystals," Advanced materials26, 1590-1595 (2014).

16.      S.-j. Qiu, Q. Liu, F. Xu*, and Y.-q. Lu, "Ampere force based photonic crystal fiber magnetic field sensor," Sensors and Actuators A-Physical210, 95-98 (2014).

17.      Y. Ming, Z.-j. Wu, G.-x. Cui, A.-h. Tan, F. Xu*, and Y.-q. Lu*, "Integrated source of tunable nonmaximally mode-entangled photons in a domain-engineered lithium niobate waveguide," Applied Physics Letters104, 171110 (2014).

18.      Y. Ming, A.-H. Tan, Z.-J. Wu, Z.-X. Chen, F. Xu* and Y.-Q. Lu*, "Tailoring entanglement through domain engineering in a lithium niobate waveguide," Scientific Reports4(2014).

19.      W. Luo, W. Guo, F. Xu*, and Y.-q. Lu, "Efficient surface second-harmonic generation in slot micro/nano-fibers," Optics Express21, 11554-11561 (2013).

20.      S.-j. Qiu, F. Zhou, X. Feng, F. Xu*, and Y.-q. Lu, "Lead silicate fiber-based, refractive index-independent temperature sensor," Journal of Modern Optics60, 851-853 (2013).

21.                G.-h. Shao, Z.-j. Wu, J.-h. Chen, F. Xu*, and Y.-q. Lu*, "Nonlinear frequency conversion of fields with orbital angular momentum using quasi-phase-matching," Physical Review A88(2013).

22.      Y. Ming, Z.-j. Wu, A.-h. Tan, X.-k. Hu, F. Xu*, and Y.-q. Lu*, "Quantum entanglement based on surface phonon polaritons in condensed matter systems," AIP Advances3, 042122 (2013).

23.      Y. Zhao, F. Zhou, F. Xu*, and Y.-Q. Lu*, "A Heterodyne Optical Fiber Current Sensor Based on a Nanowire-Grid In-Line Polarizer," IEEE Photonics Journal4, 1288-1294 (2012).

24.      Y. Zhao, F. Zhou, H. Wu, F. Xu, and Y.-q. Lu, "All-fiber vibration sensor based on nano-wire grid polarizer," Optical Engineering51(2012).

25.      Z.-j. Wu, Y. Ming, F. Xu*, and Y.-q. Lu*, "Optical frequency comb generation through quasi-phase matched quadratic frequency conversion in a micro-ring resonator," Optics Express20, 17192-17200 (2012).

26.      G.-h. Shao, X.-s. Song, F. Xu*, and Y.-q. Lu*, "Optical parametric amplification of arbitrarily polarized light in periodically poled LiNbO3," Optics Express20, 19343-19348 (2012).

27.      S.-j. Qiu, Y. Chen, F. Xu*, and Y.-q. Lu, "Temperature sensor based on an isopropanol-sealed photonic crystal fiber in-line interferometer with enhanced refractive index sensitivity," Optics Letters37, 863-865 (2012).

28.      Y. Ming, Z.-j. Wu, H. Wu, F. Xu, and Y.-q. Lu, "Surface Plasmon Interferometer Based on Wedge Metal Waveguide and Its Sensing Applications," IEEE Photonics Journal4, 291-299 (2012).

29.      W. Luo, J.-l. Kou, Y. Chen, F. Xu*, and Y.-q. Lu*, "Ultra-highly sensitive surface-corrugated microfiber Bragg grating force sensor," Applied Physics Letters101, 133502 (2012).

30.      C. Li, S.-J. Qiu, Y. Chen, F. Xu*, and Y.-Q. Lu, "Ultra-Sensitive Refractive Index Sensor With Slightly Tapered Photonic Crystal Fiber," IEEE Photonics Technology Letters24, 1771-1774 (2012).

31.      J.-l. Kou, Y. Chen, F. Xu*, and Y.-q. Lu, "Miniaturized broadband highly birefringent device with stereo rod-microfiber-air structure," Optics express20, 28431-28436 (2012).

32.      J.-l. Kou, F. Xu*, and Y.-q. Lu*, "Loop-mirror-based slot waveguide refractive index sensor," AIP Advances2, 042142 (2012).

33.      J.-l. Kou, W. Guo, F. Xu*, and Y.-q. Lu*, "Highly Birefringent Optical-Fiberized Slot Waveguide for Miniature Polarimetric Interference Sensors: A Proposal," IEEE Sensors Journal12, 1681-1685 (2012).

34.      J.-L. Kou, M. Ding, J. Feng, Y.-Q. Lu, F. Xu*, and G. Brambilla, "Microfiber-Based Bragg Gratings for Sensing Applications: A Review," Sensors12, 8861-8876 (2012).

35.      W. Hu, A. Srivastava, F. Xu, J.-T. Sun, X.-W. Lin, H.-Q. Cui, V. Chigrinov, and Y.-Q. Lu, "Liquid crystal gratings based on alternate TN and PA photoalignment," Optics Express20, 5384-5391 (2012).

36.      W. Guo, F. Xu*, and Y.-q. Lu, "Coupling influence on the refractive index sensitivity of photonic wire ring resonator," Optics Communications285, 5144-5147 (2012).

37.      W. Guo, Y. Chen, F. Xu*, and Y.-q. Lu, "Modeling of the influence of coupling in optical microfiber resonators," Optics Express20, 14392-14399 (2012).

38.      F. Xu, Q. Wang, J.-F. Zhou, W. Hu, and Y.-Q. Lu, "Dispersion Study of Optical Nanowire Microcoil Resonators," IEEE Journal of Selected Topics in Quantum Electronics17, 1102-1106 (2011).

39.      X.-s. Song, Z.-y. Yu, Q. Wang, F. Xu, and Y.-q. Lu, "Polarization independent quasi-phase-matched sum frequency generation for single photon detection," Optics Express19, 380-386 (2011).

40.      X.-s. Song, F. Xu, and Y.-q. Lu, "Electromagnetically induced transparency-like transmission in periodically poled lithium niobate with a defect," Optics Letters36, 4434-4436 (2011).

41.      X.-S. Song, Q. Wang, Z.-Y. Yu, F. Xu, and Y.-Q. Lu, "Polaeization Insensitive Quasi-phase-matched Second Harmonic Generation " Journal of Nonlinear Optical Physics & Materials20, 129-136 (2011).

42.      S.-j. Qiu, Y. Chen, J.-l. Kou, F. Xu*, and Y.-q. Lu, "Miniature tapered photonic crystal fiber interferometer with enhanced sensitivity by acid microdroplets etching," Applied Optics50, 4328-4332 (2011).

43.      X.-s. Qian, H. Wu, Q. Wang, Z.-Y. Yu, F. Xu, Y.-Q. Lu, and Y.-F. Chen, "Electro-optic tunable optical isolator in periodically poled LiNbO(3)," Journal of Applied Physics109(2011).

44.      X.-w. Lin, J.-b. Wu, W. Hu, Z.-g. Zheng, Z.-j. Wu, G. Zhu, F. Xu, B.-b. Jin, and Y.-q. Lu, "Self-polarizing terahertz liquid crystal phase shifter," AIP Advances1, 032133 (2011).

45.      S.-S. Li, X.-S. Song, F. Xu, and Y.-Q. Lu, "Photonic crystal fibre based modal interferometer with four-beam path interference," Electronics Letters47, 719-720 (2011).

46.      J.-l. Kou, F. Xu*, and Y.-q. Lu, "Highly Birefringent Slot-Microfiber," IEEE Photonics Technology Letters23, 1034-1036 (2011).

47.      J.-l. Kou, Q. Wang, Z.-y. Yu, F. Xu*, and Y.-q. Lu, "Broadband and highly efficient quadratic interactions in double-slot lithium niobate waveguides through phase matching," Optics Letters36, 2533-2535 (2011).

48.      J.-L. Kou, S.-J. Qiu, F. Xu*, Y.-Q. Lu, Y. Yuan, and G. Zhao, "Miniaturized Metal-Dielectric-Hybrid Fiber Tip Grating for Refractive Index Sensing," IEEE Photonics Technology Letters23, 1712-1714 (2011).

49.      J.-l. Kou, S.-j. Qiu, F. Xu*, and Y.-q. Lu, "Demonstration of a compact temperature sensor based on first-order Bragg grating in a tapered fiber probe," Optics Express19, 18452-18457 (2011).

50.      J.-l. Kou, Z.-d. Huang, G. Zhu, F. Xu*, and Y.-q. Lu, "Wave guiding properties and sensitivity of D-shaped optical fiber microwire devices," Applied Physics B-Lasers and Optics102, 615-619 (2011).

51.      Z. D. Huang, S. S. Li, Z. J. Wu, F. Xu, W. Hu, and Y. Q. Lu, "Measurement of Surface Plasmon Polariton Enhanced Goos-Hanchen Shift Based on Grating and Liquid Crystal Technologies," IEEE Photonics Technology Letters23, 1829-1831 (2011).

52.      X.-k. Hu, Z.-d. Huang, S.-s. Li, F. Xu, B. Chen, and Y.-q. Lu, "A wavelength selective bidirectional isolator for access optical networks," Optical Fiber Technology17, 191-195 (2011).

53.      W. Guo, J.-l. Kou, F. Xu*, and Y.-q. Lu, "Ultra-flattened and low dispersion in engineered microfibers with highly efficient nonlinearity reduction," Optics Express19, 15229-15235 (2011).

54.      J. Feng, Y. Zhao, X.-W. Lin, W. Hu, F. Xu, and Y.-Q. Lu, "A Transflective Nano-Wire Grid Polarizer Based Fiber-Optic Sensor," Sensors11, 2488-2495 (2011).

55.      J. Feng, M. Ding, J. L. Kou, F. Xu*, and Y. Q. Lu, "An Optical Fiber Tip Micrograting Thermometer," IEEE Photonics Journal3, 810-814 (2011).

56.      Y. Chen, F. Xu*, and Y.-q. Lu, "Teflon-coated microfiber resonator with weak temperature dependence," Optics Express19, 22923-22928 (2011).

57.     S.-y. Zhang, Q. Zhong, X.-s. Qian, X.-w. Lin, F. Xu*, W. Hu, and Y.-q. Lu*, "A three-beam path photonic crystal fiber modal interferometer and its sensing applications," Journal of Applied Physics108(2010).

58.     Z.-y. Yu, F. Xu*, X.-w. Lin, X.-s. Song, X.-s. Qian, Q. Wang, and Y.-q. Lu, "Tunable broadband isolator based on electro-optically induced linear gratings in a nonlinear photonic crystal," Optics Letters35, 3327-3329 (2010).

59.     F. Xu, G. Brambilla, J. Feng, and Y.-Q. Lu, "A Microfiber Bragg Grating Based on a Microstructured Rod: A Proposal," IEEE Photonics Technology Letters22, 218-220 (2010).

60.     <span style="font-family: 'Times New Roman',serif; mso-bidi-font-size: 10.5pt; mso-fareast-font-family: 楷体_GB2312;" lang="E

专利:

1.         201110062937.8: 基于长微光纤的多环光学谐振腔的模具化制备和封装方法

    徐飞、陈烨、寇君龙、陆延青、胡伟

申请日:20113162012725授权,CN 102185245 B

2.         201110002022.8:一种全光纤条件下实现外差测量的方法
陆延青、赵云、冯婧、徐飞、胡伟
申请日:201116201295授权, CN 102141413 B

3.         201210325147.9:一种基于环路镜的槽型波导折射率传感器

    徐飞、寇君龙、陆延青、胡伟

    申请日:201295日(2014723日授权, CN 102798613 B

4.         201210231125.6:微纳结构D形光纤及制备方法与应用

    陆延青、林晓雯、李苏陕、钱小石、葛海雄、胡伟、徐飞

申请日:201274日(2014611日授权, CN 102768381 B

5.         201210378032.6:在太赫兹频段具有大双折射的液晶混晶材料

    胡伟、王磊、陆延青、林晓雯、徐飞

申请日:2012108日(201411日授权, CN 102876333 B

6.        201210339534.8:高双折射器件及其制作方法

徐飞、寇君龙、陈烨、陆延青、胡伟

申请日:201291320141029日授权,CN 102830462 B

7.         201210203953.9: 高灵敏度光子晶体光纤折射率传感器及制法

徐飞、李程、邱孙杰、陈烨、陆延青、胡伟

申请日:20126202015114日授权,CN 102749304 B

8.         201210548818.8: 折射率不敏感的温度传感器的制备方法及测量装置

徐飞、邱孙杰、陆延青、胡伟

申请日:20121217日(20141217日授权, CN 102944328 B

9.         201210062176.0:一种全光纤外差电流传感器

       陆延青、赵云、周峰、徐飞、胡伟

申请日:201239日(20141210日授权, CN 102590577 B

10.     201310053045.0:一种反射型全光纤氢气传感器及其制备和测量方法

徐飞、周峰、邱孙杰、罗炜、陆延青、胡伟

申请日:2013218日(2015617日授权, CN 103175807 B

11.     201210227465.1: 一种快速响应光开关

    胡伟、林晓雯、陆延青、徐飞

    申请日:2012630201548日授权,CN 102768440 B

12.     PCT/CN2011/076558 US 8,644,652 B2 Slotted Optical Fibers and Methods and Apparatuses for the Same
徐飞、寇君龙、陆延青、胡伟

申请日:2011629日(201424日授权)

13.     PCT/CN2010/074479, US20120224806:  Multi-mode interferometer techniques
陆延青、张舒怡、仲琦、徐飞、林晓雯、胡伟

       申请日:2010625PCT 国际专利,美国专利申请授权)

14.     200910212661.x:色散控制模块和波长阻隔器
陆延青、黄张迪、李苏陕、徐飞、胡伟
申请日:200911132011629授权, CN 101718938 B

15.     201010549451.2: 基于偏振无关频率上转换的单光子探测器
陆延青、宋晓诗、王琴、徐飞、于子砚、胡伟

申请日:20101118日(2012118日授权, CN 102147293 B


 
专著:

1.F. Xu, and G. Brambilla, “Microfiber and microcoil resonators and sensors” ,Chapter 11, “Photonic Microresonator Research and Applications ”, ISBN 978-1-4419-1743-0, © 2010 Springer Publishers, Inc.

2. F. Xu, J. L. Kou, Y. Q. Lu and W. Hu, "Miniature engineered tapered fiber tip devices by Focused ion beam micromachining", Chapter 2 ,"Micromachining" ISBN 978-953-307-906-6, 2012 InTech.

3.F. Xu, J. L. Kou, M. Ding, Y Q. Lu and G. Brambilla "Surface-corrugated microfiber Bragg grating", Chapter 2, "Current Trends in Short- and Long-period Fiber Gratings", ISBN 980-953-307-470-7, 2012 InTech.

4. G. Brambilla, F. Xu, P. E. Horak, and D.J.Richardson, “Optical Fiber Nanowires, Sub-wavelength Wires and Related Devices” ,Chapter 5, “Progress in Optical Fibers Research”, ISBN 978-1-60021-868-2, © 2007 Nova, Science Publishers, Inc.

5.F. Xu, W. Guo, Y. Q. Lu and W. Hu, "Microfiber Coil Resonators: Theory, Manufacture and Application", Chapter 1,Optical Fibers: New Developments, ISBN 978-1-62808-425-2, © 2013 Nova, Science Publishers, Inc.

6. F. Xu, W. Luo, W. Guo, W. Hu, Y. Q. Lu, Z. X. Wu and J. L Kou, ”Nonlinear optics in optical slot-microfiber”, Chapter 4“Nonlinear Optics: Fundamentals, Applications andTechnological Advances” ISBN 978-1-63321-926-7, ©2014 Nova, Science Publishers, Inc.


其他
招收和培养研究生情况以及学生获得的荣誉:
招收物理、电子、材料、光学、生物、化学、机械等专业背景硕士和博士

学生获得的荣誉:
2014年度江苏省优秀硕士论文
2013,2014,2015国家奖学金
2014 南京大学本科优秀毕业设计论文一等奖
2012 Wang Daheng Optical Award for College Students