付博 (副研究员)

副研究员 博士生导师 硕士生导师

主要任职:医工百人副研究员

性别:男

毕业院校:清华大学

学位:博士学位

所在单位:大数据精准医疗高精尖创新中心

学科:仪器科学与技术

办公地点:北京航空航天大学柏彦大厦906

联系方式:fubo10@buaa.edu.cn

Email:

个人简历

    北京航空航天大学医工百人,博士生导师,博士后导师。20157月于清华大学精密仪器系光学工程专业获博士学位(导师:杨昌喜),期间获国家留学基金委资助,赴芬兰阿尔托大学联合培养一年(原赫尔辛基工业大学,合作导师:Zhipei Sun)。博士毕业后,于英国剑桥大学工程系石墨烯中心(合作导师:Andrea C. Ferrari),从事博士后研究,并担任博士生培训导师。20184月,入职北京航空航天大学。

    所获荣誉包括:清华大学精密仪器系“学术新秀”,清华大学“优秀博士学位论文”,入选清华大学“优秀博士学位论文丛书”,“NSK机械工学优秀论文”,浙江大学全国博士生论坛光电子学技术分论坛“优秀论文”,河北省“优秀硕士学位论文”等。迄今为止,发表期刊和会议论文近40篇,其中SCI论文20余篇

 

    本课题组同时在仪器科学与光电工程学院,仪器科学与技术一级学科(双一流A+学科)的测试计量技术及仪器专业招生,欢迎对本课题组感兴趣的本科/硕士/博士加入。对于有意继续出国深造的学生,本课题组将全力支持并予以推荐。另外,本课题组招收科研助理和博士后,待遇从优,有意向者可与本人联系


研究方向

1. 锁模光纤激光器及应用、超连续谱、光学频率梳

2. 石墨烯/碳纳米管等二维材料在超快光学中的应用

3. 光子晶体光纤、光纤光学

4. 基于激光器的医工交叉等方向

 

主持/参与项目经历

北航大数据精准医疗高精尖创新中心“医工百人”个人项目:超快脉冲激光器及应用

欧洲石墨烯旗舰项目分支(EU Graphene Flagship):基于石墨烯的超快脉冲激光器及应用

国家自然科学基金面上项目:片上跨倍频程克尔光频梳与时域腔孤子特性的研究

国家自然科学基金面上项目:基于掺铥锁模光纤激光器的中红外光频梳

国家自然科学基金面上项目:梳齿间距可调的光纤四波混频光频梳

国家自然科学基金面上项目:基于石墨烯可饱和吸收体的锁模光纤激光器

国家自然科学基金面上项目:高稳定低噪声宽带可调飞秒激光频率转换研究

教育部高等学校博士学科点专项科研基金:石墨烯的非线性光学性质及在锁模光纤激光器中的应用

 


发表论著

1      B. Fu, D. Popa, Z. Zhao, S. A. Hussain, E. Flahaut, T. Hasan, G. Soavi, and A. C. Ferrari, “Wavelength tunable soliton rains in a nanotube-mode locked Tm-doped fiber laser,” Applied Physics Letters, 113, 193102, (2018).

2      B. Fu, S. A. Hussain, G. Soavi, B. Yao, D. Popa, and A. C. Ferrari, “Broadband Wavelength Tunable Mode-Locked Tm-Doped Fiber Laser Based on Carbon Nanotubes,” Conference on Lasers and Electro-Optics (CLEO/OSA), San Jose, California, USA, JTh2A.179, (2018).

3      B. Fu, D. Popa, Z. Zhao, S. A. Hussain, E. Flahaut, T. Hasan, and A. C. Ferrari, “Wavelength tunable soliton rains in a nanotube-mode locked Tm-doped fiber laser,” arXiv: 1807.02722 [physics.optics], (2018).

4      B. Fu, D. Popa, S. A. Hussain, and A. C. Ferrari, “Multiwavelength Tunable Tm-Doped Fiber Laser Based on Nanotubes,” The European Conference on Lasers and Electro-Optics (CLEO Europe), Munich, Germany (2017).

5      H. Yang, B. Fu (共同一作), D. Li, Y. Tian, Y. Chen, M. Mattila, Z. Yong, R. Li, A. Hassanien, C. Yang, I. Tittonen, Z. Ren, J. Bai, Q. Li, E. I. Kauppinen, H. Lipsanen, and Z. Sun, “Broadband laser polarization control with aligned carbon nanotubes,” Nanoscale, 7, 11199-11205, (2015).

6      B. Fu, Y. Hua, X. Xiao, H. Zhu, Z. Sun, and C. Yang, “Broadband Graphene Saturable Absorber for Pulsed Fiber Lasers at 1, 1.5 and 2 µm,” IEEE Journal of Selected Topics in Quantum Electronics, 20, 1100705, (2014). ESI高被引论文(2017年9月检索),目前被引72

7      B. Fu, H. Yang, Y. Chen, M. Mattila, Z. Yong, Q. Li, C. Yang, I. Tittonen, H. Lipsanen, and Z. Sun, “Broadband polarization dynamics control with aligned carbon nanotubes,” Nanocarbon Photonics and Optoelectronics, North Karelia, Finland, (2014).

8      B. Fu, Y. Hua, X. Xiao, H. Yang, C. Yang, and Z. Sun, “Graphene based broadband untrafast fiber lasers at 1, 1.5 and 2 μm,” Optics & Photonics Days 2014, Turku, Finland, (2014).

9      B. Fu, H. Yang, Y. Chen, M. Mattila, Z. Yong, Q. Li, C. Yang, I. Tittonen, H. Lipsanen, and Z. Sun, “Polarization dynamics control with aligned carbon nanotubes,” Optics & Photonics Days 2014, Turku, Finland, (2014).

10   B. Fu, Y. Hua, X. Xiao, H. Yang, C. Yang, and Z. Sun, “Fabrication of graphene saturable absorber for ultra-broadband ultrafast fiber lasers,” Optical Nanospectroscopy I, Tübingen, Germany, (2014).

11   B. Fu, H. Yang, Y. Chen, M. Mattila, Z. Yong, Q. Li, C. Yang, I. Tittonen, H. Lipsanen, and Z. Sun, “Fabrication of aligned carbon nanotube device and its application for polarization controlling,” Optical Nanospectroscopy I, Tübingen, Germany, (2014).

12   B. Fu, L. Gui, X. Li, X. Xiao, H. Zhu, and C. Yang, “Generation of 35-nJ nanosecond pulse from a passively mode-locked Tm, Ho-codoped fiber laser with graphene saturable absorber,” IEEE Photonics Technology Letters, 25, 1447-1449, (2013).

13   B. Fu, L. Gui, W. Zhang, X. Xiao, H. Zhu, and C. Yang, “Passive harmonic mode-locking in erbium-doped fiber laser with graphene saturable absorber,” Optics Communications, 286, 304-308, (2013).

14   B. Fu, Y. Hua, X. Xiao, and C. Yang, “Graphene film for broadband mode-locked fiber lasers,” Asia Communications and Photonics Conference, Beijing, China, ATh3C.2, (2013).

15   B. Fu, W. Zhang, L. Gui, X. Xiao, H. Zhu, and C. Yang, “Generation of 32nd harmonic in passively mode-locked erbium-doped laser with graphene saturable absorber,” Conference on Lasers and Electro-Optics (CLEO/OSA), San Jose, California, USA, JW2A.70, (2012).

16   B. Fu, S. Li, Y. Yao, L. Zhang, and M. Zhang, “Improved high birefringence photonic crystal fibres with dispersion flattened and single mode operation,” Chinese Physics B, 20, 024209, (2011).

17   B. Fu, S. Li, Y. Yao, L. Zhang, and M. Zhang, “Design of two kinds of dual-core high birefringence and high coupling degree photonic crystal fibers,” Optics Communications, 283, 4064-4068, (2010).

18   B. Fu, S. Li, Y. Yao, L. Zhang, and M. Zhang, “Supercontinuum generation with high birefringence SF6 soft glass photonic crystal fibers,” Chinese Physics Letters, 27, 074209, (2010).

19   付博, 李曙光, 姚艳艳, 张磊, 张美艳, 刘司英, “双芯高双折射光子晶体光纤耦合特性研究,” 物理学报, 58, 7708, (2009).

20   付博, 杨昌喜, “基于石墨烯可包和吸收体的锁模光纤激光器”,清华大学优秀博士学位论文丛书(ISBN: 978-7-302-51508-1),清华大学出版社.

21   Z. Fan, S. li, B. Fu, B. Wang, and W. Zhang, “Influence of inner-arc curvature and cladding rings on confinement loss in hypocycloid-shaped KAGOME hollow-core photonic crystal fiber,” Journal of Applied Physics, 123, 043110, (2018).

22   B. Yao, G. Soavi, T. Ma, X. Zhang, B. Fu, D. Yoon, S. A. Hussain, A. Lambardo, D. Popa, and A. C. Ferrari, “Gate controllable ultrafast fiber lasers based on graphene,” Conference on Lasers and Electro-Optics (CLEO/OSA), San Jose, California, USA, SF3K.6, (2018).

23   D. Popa, D. Viola, G. Soavi, B. Fu, L. Lombardi, S. Hodge, D. Polli, G. Cerullo, and A. C. Ferrari, “Coherent Raman spectroscopy with a graphene-synchronized all-fiber laser,” Conference on Lasers and Electro-Optics (CLEO/OSA), San Jose, California, USA, JTu5A.2, (2017).

24   Z. Zhao, D. Popa, B. Fu, S. A. Hussain, and A. C. Ferrari, “Bound state operation of an all-polarization maintaining Er-doped fiber laser,” Conference on Lasers and Electro-Optics (CLEO/OSA), San Jose, California, USA, JW2A.4, (2017).

25   D. Popa, D. Viola, G. Soavi, B. Fu, L. Lombardi, S. Hodge, T. Scopigno, G. Cerullo, and A. C. Ferrari, “Graphene synchronised all-fiber laser for coherent Raman spectroscopy,” The European Conference on Lasers and Electro-Optics and the European Quantum Electronics Conference (CLEO/Europe), Munich, Germany (2017).

26   P. Wang, C. Bao, B. Fu, X. Xiao, P. Grelu, and C. Yang, “Generation of wavelength-tunable soliton molecules in a 2-μm ultrafast all-fiber laser based on nonlinear polarization evolution,” Optics Letters, 41, 2254, (2016).

27   X. Xiao, Y. Hua, B. Fu, and C. Yang, “Experimental investigation of the wavelength tunability in all-normal-dispersion ytterbium-doped mode-locked fiber lasers,” IEEE Photonics Journal, 5, 1502807, (2013).

28   S. Li, L. Zhang, B. Fu, Y. Zheng, Y. Hang, and X. Zhao, “Wave breaking in tapered holey fibers,” Chinese Optics Letters, 9, 030601, (2011).

29   刘硕, 李曙光, 付博, 周洪松, 冯荣普, “中红外高保偏硫系玻璃双芯光子晶体光纤耦合特性研究,” 物理学报, 60, 034217, (2011).

30   H. Zhou, S. Li, B. Fu, Y. Yao, and L. Zhang, “A kind of double-cladding photonic crystal fiber with high birefringence and two zero-dispersion wavelengths,” Chinese Physics Letters, 27, 014208, (2010).

31   M. Zhang, S. Li, Y. Yao, B. Fu, and L. Zhang, “A dark hollow beam from a selectively liquid-filled photonic crystal fibre,” Chinese Physics B, 19, 047103, (2010).

32   W. Ma, S. Li, G. Yin, B. Fu, and L. Zhang, “Study on pulse compression in tapered holey fibres,” Chinese Physics B, 19, 104208, (2010).

33   L. Zhang, S. Li, Y. Yao, B. Fu, and M. Zhang, “Properties of high birefringence chalcogenide glass holey fibre for mid-infrared transparency,” Journal of Optics, 12, 035207, (2010).

34   Y. Yao, S. Li, B. Fu, L. Zhang, and M. Zhang, “Numerical study on pulse trapping in birefringent photonic crystal fibers,” Optoelectronics Letters, 7, 0205, (2011).

35   L. Zhang, S. Li, B. Fu, Y. Yao, M. Zhang, and G. Yin, “Investigation of wave breaking in the normal dispersion region of nano-structured photonic crystal fibers,” Optoelectronics Letters, 6, 0401, (2010).

36   张磊, 李曙光, 姚艳艳, 付博, 张美艳, 郑义, “高双折射纳米结构光子晶体光纤特性研究,” 物理学报, 59, 1101, (2010).

37   张美艳, 李曙光, 姚艳艳, 张磊, 付博, 尹国冰, “微结构纤芯对光子晶体光纤基本特性的影响,” 物理学报, 59, 3278, (2010).

38   马文文, 李曙光, 尹国冰, 冯荣普, 付博,反常色散锥形微结构光纤中高效率脉冲压缩研究,” 物理学报, 59, 4720, (2010).

39   姚艳艳, 李曙光, 付博, 张磊, 郑义, 侯蓝田, “光子晶体光纤中超连续谱的研究进展与应用,” 物理, 39, 682, (2010).

40   A. C. Ferrari, D. Popa, G. Cerullo, D. Polli, T. Scopigno, G. Soavi, B. Fu, D. Viola, “Nanomaterial-synchronized ultrafast fiber lasers for coherent Raman spectroscopy,” International Patent, in application.