Bo Fu
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    Beihang University "Hundred Talent in Engineering Medicine", Xiaomi Young Scholar, Beihang Young Talents, Doctoral Supervisor, Postdoctoral Supervisor. In 2015, he received his Ph.D. from the Department of Precision Instruments of Tsinghua University. During this period, he was funded by the China Scholarship Council and went to Aalto University in Finland for one-year joint training. After graduating from Ph.D., he engaged in post-doctoral research in the Department of Engineering, University of Cambridge, UK. In April 2018, he joined Beijing University. The students he supervised won First Prize in Instrument Optoelectronic Design Competition, First Prize of Instrumentation and Optoelectric Cup, First Prize of Fengru Cup, National College Student Innovation and Entrepreneurship Training Program Project, Shenyuan Medal, Wanxin Cup Science and Technology Innovation Challenge Outstanding Winner, Excellence Award of the National Academic League for Doctoral Students of Optics and Optical Engineering in Beijing Area, Excellence Award of Air Force Aviation Creative Challenge Cup, Second Prize of Internet Plus in Beijing, Star of Instrumentation and Optoelectronics, Outstanding Student Leaders, Outstanding Graduate Student, Outstanding Student Thesis, Outstanding Academic Fund, Outstanding Academic Innovation Achievement Award, Xiaomi Scholarship, Hisense Scholarship, Aviation Industry Scholarship, China Instrument and Control Society Scholarship, Graduate Principal Scholarship, National Scholarship, Baogang Scholarship, Nomination of Top 10 Graduate Studies, Merit Students of Beijing, Outstanding Graduate of Beijing, and Excellent Graduation Thesis of Beijing, etc.

    Honors received include: "Second Prize" of Science and Technology in China Instrument and Control Society, "Excellent Doctoral Dissertation" of Tsinghua University, "Academic Rookie", selected into "Excellent Doctoral Dissertation Series" of Tsinghua University, "NSK Excellent Dissertation in Mechanical Engineering", "Fengru Cup" Excellent Guidance Teacher, Excellent Tutor of Beihang University, Most Promising Award of Beihang Teaching Training, Discipline Construction Contribution Award, International Cooperation and Exchange Contribution Award, Excellent Scientific and Technological Practice Instructor, Advanced Grassroots Teachers, and Beijing Excellent Undergraduate Graduation Design Instructor,etc. He is a Committee Member of the National Photonics Measurement Standardization Technical Committee, Committee Member of "Chinese Journal of Lasers" Press, Review Expert of National Natural Science Foundation of China, Review Expert of National Government-sponsored/International Studies Foundation of China, Review Expert of Degree Center of the Ministry of Education, Tsinghua University Alumni Tutor, IEEE Senior Member, Editorial Board Member of Scientific Reports, Guest Editor of "Nanomaterials", Guest Editor of "Photonics", Editorial Board Members of "International Journal of Engineering Sciences and Technologies", Review Editor on the Editorial Board of Optoelectronic and Photonic Sensors (specialty section of "Frontiers in Sensors"), Scientific Editor of "Military Medical Research", Scientific Editor of "Military Medical Research", Invited Editor of "Brain-X", Young Editorial Board Member of "Frontiers of Physics", Young Editorial Board Member of "Electronics and Signal Processing", Young Editorial Board Member of "iMeta", Young Editorial Board Member of "Instrumentation", Young Editorial Board Member of "Acta Optica Sinica", an honorary student academic tutor of Beihang University of Science and Technology (Shenyuan Honors College), and a tutor of Beihang Chuanyuan Academy, invited talk in many international conferences, and served as the chairman of the branch. So far, he has published more than 80 papers such as Advanced Functional Materials (Frontispiece), Small (Inside Back Cover), Advanced Optical Materials (Inside Cover), Laser & Photonics Reviews (Inside Back Cover), Applied Physics Reviews, Nano Energy, and applied for more than 20 invention patents.

    This research group is also enrolled in the School of Instrumentation and Optoelectronic Engineering, Instrument Science and Technology (first-level discipline, double-first-class A+), testing and measurement technology and instrument major, as well as electronic information major. We welcome undergraduates/masters/doctors who are interested in this research group. join in. For students who intend to continue their studies abroad, the research group will fully support and recommend them. In addition, the research group has been recruiting postdoctoral fellows for a long time, and the treatment is favorable. Those who are interested can contact me.


Research interests (including but not limited to the following)

1. Ultrafast pulsed fiber laser and its applications (detection, imaging, sensing), optical frequency comb, supercontinuum spectrum, laser absorption spectrum, etc

2. The application of low-dimensional nanomaterials such as graphene, carbon nanotubes, metal nanoparticles, MXenes, and heterostructure materials in ultrafast photonics

3. Medical laser photonics and laser ablation


Research Projects 

China-Europe Talent Project: High-power spatiotemporal mode-locked laser and application in optical frequency comb absorption spectroscopy

Natural Science Foundation of China: Research on reconstruction and measurement method of temperature field and gas component concentration distribution based on dual frequency comb laser absorption spectroscopy

Beijing Natural Science Foundation: Mid-infrared supercontinuum based on Tm-doped graphene-mode-locked fiber laser

Start-up Funding from Beihang University: Ultrafast pulsed fiber lasers and applications

Beihang Graduate Education and Development Research Special Fund: Research on the full process and multi-stage talent cultivation plan of the school enterprise mentor group under the background of industry education integration

Beihang Youth Talent Support Program: 

Optical frequency comb based on ultrafast-pulsed fiber lasers and applications in absorption spectrum measurement; 

Mid-IR optical frequency comb based on Tm-doped graphene-mode-locked fiber lasers; 

High-power wavelength-tunable ultrafast-pulsed fiber lasers and applications in supercontinuum and optical frequency combs;

High-power spatiotemporal mode-locked fiber lasers and applications;

Research on optical frequency comb and its characteristics based on spatiotemporal mode-locking

Open Project Fund of the State Key Laboratory of Information Photonics and Optical Communication: High-power ultrafast pulsed fiber laser based on low-dimensional nanomaterials and its application

Open Project Fund of the State Key Laboratory of Advanced Optical Communication Systems and Networks: On-chip microcavity optical frequency comb driven by spatiotemporal mode-locked pulses

National Key Research and Development Project: A New Architecture of Instrumentation for Semantic Interaction, Reconfigurable, and Autonomous Intelligence

Key Project of Education Reform at Beihang University: Exploration of New Methods for Undergraduate Academic Normative Education through Experimental Activities (Participation)

China-UK Newton Advanced Fellowship: Research on detection method and technology of combustion instability based on absorption spectroscopy (Participation)

National Natural Science Foundation of China General Program: Research on on-chip cross-octave Kerr optical frequency combs and time-domain cavity soliton properties (Participation)

National Natural Science Foundation of China General Project: Mid-Infrared Optical Frequency Comb Based on Thulium-Doped Mode-locked Fiber Laser (Participation)

National Natural Science Foundation of China General Project: Fiber Four-Wave Mixing Optical Frequency Comb with Adjustable Comb Spacing (Participation)


Book

B. Fu, “Mode-Locked Fiber Lasers Based on Graphene Saturable Absorbers,” ISBN: 9787302515081, Tsinghua University Press (2018).


Papers and conference proceedings

1 J. Chao, G. Wang, P. Qiu, H. Sun, Y. Wang, X. Duan, J. Zhang, Y. Lyu, I. Ahmad, and B. Fu (corresponding author), “Optical properties and applications of metal nanomaterials in ultrafast photonics: a review,” Journal of Materials Science, to be accepted.  

2 X. Zhao, J. Sun, Y. Wang, X. Wang, and B. Fu (corresponding author), “Ag/MXene as saturable absorber for Tm:Ho co-doped Q-switched fiber laser,” Nanomaterials, 14, 951 (2024).

3 W. Lyu, T. Ma, Y. Yan, C. Zhang, J. Chao, L. Cong, W. Zhou, and B. Fu (corresponding author), “Nickel Nanoparticles as Broadband Saturable Absorber for Ultrafast Photonics,” ACS Applied Nano Materials, 7, 8221 (2024).

4 J. Sun, Y. Wang, P. Qiu, C. Zhang, L. Xu, and B. Fu (corresponding author), “Spatiotemporal nonlinear dynamics in multimode fiber laser based on carbon nanotubes,” Frontiers of Physics, 19, 52201 (2024). 

5 G. Wang, C. Zhang, H. Jin, L, Xu, and B. Fu (corresponding author), “Self-Q-switching with interferometers,” Physical Review A, 109, 033507 (2024).

6 X. Zhao, S. Li, C. Zhang, and B. Fu (corresponding author), “MXene-based Q-switched fiber laser and application in laser thrombolysiss,” Optical Fiber Technology, 84, 103763 (2024).

7 C. Zhang, W. Lyu, P. Qiu, C. Zhang, X. Zhao, X. Wang, B. He, B. Fu (corresponding author), and X. Ji, “Laser Ablation on Vascular Diseases: Mechanisms and Influencing Factors,” Lasers in Medical Science, Lasers in Medical Science, 39, 18 (2024).

8 C. Zhang, T. Wu, S. He, C. Zhang, and B. Fu (corresponding author), “Multiplexed dual combs in a bidirectional nanotube-mode-locked fiber laser,” Optics and Laser Technology, 168, 109865 (2024).

9 B. Fu, C. Shang, H. Liu, S. Fan, K. Zhao, Y. Zhang, S. Wageh, A. Al-Ghamdi, X. Wang, L. Xu, X. Xiao, and Han Zhang, “Recent advances and future outlook in mode-locked lasers with multimode fibers,” Applied Physics Reviews, 10, 041305 (2023).

10 J. Sun, G. Wang, J. Chao, X. Wang, H. Yang, and B. Fu (corresponding author), “Buildup of multiple spatiotemporal nonlinear dynamics in an all-fiber multimode laser,” Optics Letters, 48, 6019 (2023).

11 J. Sun, H. Cheng, L. Xu, B. Fu (corresponding author), X. Liu, and H. Zhang, “Ag/MXene composite as broadband nonlinear modulator for ultrafast photonics,” ACS Photonics, 10, 3133 (2023).

12 W. Lyu, J. An, Y. Lin, P. Qiu, G. Wang, J. Chao, and, B. Fu (corresponding author), “Fabrication and applications of heterostructure materials for broadband ultrafast photonics,” Advanced Optical Materials, 11, 2300124 (2023).

13 J. Guo, C. Shang, S, Gao, Y. Zhang, B. Fu (corresponding author), and L. Xu, “Flexible plasmonic optical tactile sensor for health monitoring and artificial haptic perception,” Advanced Materials Technologies, 8, 2201506 (2023).

14 C. Zhang, G. Wang, L. Xu, and, B. Fu (corresponding author), “Polarization-multiplexed single-cavity dual combs and application in absorption spectroscopy,” Sensors and Actuators A-Physical, 360, 114554 (2023).

15 C. Shang, B. Fu (cofirst author), J. Tuo, X. Guo, Z. Li, Z. Wang, L. Xu, J. Guo, “Soft biomimetic fiber-optic tactile sensors capable of discriminating temperature and pressure,” ACS Applied Materials & Interfaces, ACS Applied Materials & Interfaces, 15, 53264 (2023).

16 C. Zhang, C. Zhang, Y. Li, Y. Shi, J. Chao, Y. Zhao, H. Yang, and B. Fu (corresponding author), “Wavelength-tunable broadband lasers based on nanomaterials,” Nanotechnology, 34, 492001 (2023).

17 G. Wang, H. Qin, J. Liu, H. Ouyang, X. Wang, and B. Fu (corresponding author), “Spatiotemporal dissipative soliton resonances in multimode fiber lasers,” Chaos, Solitons and Fractals, 174, 113865 (2023).

18 C. Zhang, F. Qu, P. Ou, H. Sun, S. He, and B. Fu (corresponding author), “Recent Advances and Outlook in Single-Cavity Dual Comb Lasers,” Photonics 10, 221 (2023).

19 B. Fu, and C. Zhang, “Exploration of Ideological and Political Education Construction of Engineering General Courses in Higher Institutions In the Background of New Engineering,” Establishing Morality and Cultivating Talents, Forging Spirits and Irrigating Hearts: Seminar on College Ideological and Political Education, Zhuhai, China (2023).

20 J. Sun, W. Lyu, and B. Fu (corresponding author), “Broadband Ag/MXene saturable absorber for ultrafast fiber lasers at 1, 1.5, and 2 μm,” International Workshop on Quantum Materials for 2D Photonics & Optoelectronics, Singapore, (2023).

21 C. Zhang, G. Wang, J. Sun, B. Fu (corresponding author), and L. Xu, “Measurement of absorption spectroscopy enabled by a polarization multiplexed dual-comb laser,” IEEE International Conference on Imaging Systems and Techniques, Copenhagen, Danmark, (2023).

22 X. Zhao, H. Jin, J. Liu, J. Chao, T. Liu, H. Zhang, G. Wang, W. Lyu, S. Wageh, O. A. Al-Hartomy, A. G. Al-Sehemi, B. Fu (corresponding author), and H. Zhang, “Integration and applications of nanomaterials for ultrafast photonics,” Laser & Photonics Reviews, 16, 2200386 (2022). Inside Back Cover

23 G. Wang, T. Liu, J. Chao, H. Jin, J. Liu, H. Zhang, W. Lyu, P. Yin, A. Al-Ghamdi, S. Wageh, B. Fu (corresponding author), and H. Zhang, “Recent advances and challenges in ultrafast photonics enabled by metal nanomaterials,” Advanced Optical Materials, 10, 2200443 (2022). Inside Cover

24 B. Fu, C. Zhang, W. Lyu, J. Sun, C. Shang, Y. Cheng, and L. Xu, “Recent Progress on Laser Absorption Spectroscopy for Determination of Gaseous Chemical Species,” Applied Spectroscopy Reviews, 57, 112 (2022).

25 J. Li, C. Shang, Y. Rong, J. Sun, Y. Cheng, B. He, Z. Wang, M. Li, J. Ma, B. Fu (corresponding author), and X. Ji, “Review on Laser Technology in Intravascular Imaging and Treatment,” Aging and Disease, 13, 246 (2022).

26 C. Wang, B. Chang, T. Tan, C. Qin, Z. Wu, G. Yan, B. Fu, Y. Wu, Y. Rao, H. Xia, and B. Yao, “High energy and low noise soliton fiber laser comb based on nonlinear merging of Kelly sidebands,” Optics Express, 30, 23556 (2022).

27 B. Fu, Y. Cheng, C. Shang, J. Li, G. Wang, C. Zhang, J. Sun, J. Ma, X. Ji, and B. He, “Optical ultrasound sensors for biomedical imaging: a narrative review,” Quantitative Imaging in Medicine and Surgery, 12, 1608 (2022).

28 C. Shang, Y. Zhang, G. Wang, J. Sun, Y. Cheng, Y. Zhang, B. Yao, B. Fu (corresponding author), and J. Li, “Nonlinear Optical Properties of MXene and Applications in Broadband Ultrafast Photonics,” Journal of Alloys and Compounds, 918, 165580 (2022).

29 B. Fu, X. Zhao, H. Zhang, and L. Xu, “Application and Progress of Laser Technology for Thrombus Ablation,” Chinese Journal of Lasers, 49, 1907001 (2022). Invited Paper

30 W. Lyu, Y. Cheng, J. An, M. Condorelli, M. Pulvirenti, G. Compagnini, X. Wang, B. Fu (corresponding author), and V Scardaci, “Silver Nanoplate Composites as Nonlinear Saturable Absorbers for a Q-Switched Laser,” Photonics, 9, 835 (2022).

31 B. Fu, J. Sun, Y. Cheng, H. Ouyang, G. Compagnini, P. Yin, S. Wei, S. Li, D. Li, V. Scardaci, and H. Zhang, “Recent progress on metal-based nanomaterials: fabrications, optical properties, and applications in ultrafast photonics,” Advanced Functional Materials, 31, 2107363 (2021). Frontispiece

32 B. Fu, J. Sun, C. Wang, C. Shang, L. Xu, J. Li, and H. Zhang “MXenes: Synthesis, Optical Properties, and Applications in Ultrafast Photonics,” Small, 17, 2006054 (2021). Inside Back Cover, ESI Highly Cited Paper

33 Y. Cheng, W. Lyu, Z. Wang, H. Ouyang, A. Zhang, J. Sun, T. Yang, B. Fu (corresponding author), and B. He, “MXenes: synthesis, incorporation, and applications in ultrafast lasers,” Nanotechnology, 32, 392003 (2021).

34 A. Zhang, Z. Wang, H. Ouyang, W. Lyu, J. Sun, Y. Cheng, and B. Fu (corresponding author), “Recent Progress of Two-Dimensional Materials for Ultrafast Photonics,” Nanomaterials, 11, 1778 (2021).

35 B. Fu, C. Zhang, P. Wang, M. Condorelli, M. Pulvirenti, E. Fazio, C. Shang, J. Li, Y. Li, G. Compagnini, and V. Scardaci, “Nonlinear Optical Properties of Ag Nanoplates Plasmon Resonance and Applications in Ultrafast Photonics,” Journal of Lightwave Technology, 39, 2084 (2021).

36 G. Wang, Y. Ma, C. Shang, H. Huang, Z. Lu, S. Wang, J. Sun, C. Zhang, and B. Fu (corresponding author), “Influence of Reverse Saturable Absorption Effect on Conventional and Dissipative Solitons Fiber Lasers,” Optics and Laser Technology, 137, 106805 (2021).

37 B. Fu, P. Wang, Y. Li, M. Condorelli, E. Fazio, J. Sun, L. Xu, V. Scardaci, and G. Compagnini, “Passively Q-switched Yb-doped all-fiber laser based on Ag nanoplates as saturable absorber,” Nanophotonics, 9, 3873 (2020). 

38 B. Fu, J. Sun, G. Wang, C. Shang, Y. Ma, J. Ma, L. Xu, and V. Scardaci, “Solution-processed two-dimensional materials for ultrafast fiber lasers (invited),” Nanophotonics, 9, 2169 (2020).

39 C. Shang, Y. Zhang, H. Qin, B. He, C. Zhang, J. Sun, J. Li, J. Ma, X. Ji, L. Xu, and B. Fu (corresponding author), “Review on wavelength-tunable pulsed fiber lasers based on 2D materials,” Optics and Laser Technology, Optics and Laser Technology, 131, 106375 (2020).

40 L. Chang, Z. Cao, B. Fu, Y. Lin, and L. Xu, “Lean blowout detection for bluff-body stabilized flame,” Fuel, 266, 117008 (2020).

41 Y. Wang, W. Zhua, Y. Deng, B. Fu, P. Zhu, Y. Yu, J. Li, and J. Guo, “Self-Powered Wearable Pressure Sensing System for Continuous Healthcare Monitoring Enabled by Flexible Thin-Film Thermoelectric Generator,” Nano Energy, 71, 104773 (2020).

42 X. Ma, B. Liu, Y. Cai, D. Jia, B. Fu, L. Xu, J. Ma, “Suppression of Reverberations at Fiber Tips for Optical Ultrasound Sensing,” Optics Letters, 45, 2526 (2020).

43 B. Fu, J. Li, Z. Cao, and D. Popa, “Bound states of solitons in a harmonic graphene-mode-locked fiber laser,” Photonics Research, 7, 116 (2019).

44 B. Fu, “Soliton Molecules in a Tunable Tm-doped Fiber Laser,” The International Conference on Optical and Photonic Engineering, Phuket, Thailand (2019).

45 B. Fu, J. Li, Z. Cao, and D. Popa, “Bound States in a Harmonic Graphene-Mode-Locked Fiber Laser,” Conference on Lasers and Electro-Optics (CLEO/OSA), San Jose, California, USA, JW2A.85 (2019).

46 B. Fu, “Soliton molecules in a graphene harmonic mode-locked fiber laser,” 26th Assembly of Advanced Materials Congress, Stockholm, Sweden (2019).

47 J. Li, B. Fu (corresponding author), and Z. Liu, “Panchromatic image compression based on improved post-transform for space optical remote sensors,” Signal Processing, 159, 72 (2019).

48 B. Fu, “Nanotubes polymer for ultrafast photonics,” 16th Pacific Polymer Conference, Singapore (2019).

49 X. Ma, Q. Cai, B. Fu, L. Xu, J. Ma, “Fiber optic-based Laser Interferometry Array for Three Dimensional Ultrasound Sensing,” Optics Letters, 44, 5852 (2019).

50 S. Gao, Y. Shi, Q. Liu, L. Xu, B. Fu, and Z. Yang, “4-Dimensional Sensing in Interactive Displays Enabled by Both Capacitive and Piezoelectric Based Touch Panel,” IEEE Access, 7, 33787 (2019).

51 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).

52 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). 

53 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).

54 B. Yao, G. Soavi, T. Ma, X. Zhang, B. Fu, D. Yoon, S. A. Hussain, A. Lambardo, D. Popa, and A. C. Ferrari, Conference on Lasers and Electro-Optics (CLEO/OSA), San Jose, California, USA, SF3K.6 (2018).

55 D. Popa, D. Viola, G. Soavi, B. Fu, L. Lombardi, S. Hodge, D. Polli, G. Cerullo, and A. C. Ferrari, Conference on Lasers and Electro-Optics (CLEO/OSA), San Jose, California, USA, JTu5A.2 (2017).

56 Z. Zhao, D. Popa, B. Fu, S. A. Hussain, and A. C. Ferrari, Conference on Lasers and Electro-Optics (CLEO/OSA), San Jose, California, USA, JW2A.4 (2017). 

57 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). 

58 D. Popa, D. Viola, G. Soavi, B. Fu, L. Lombardi, S. Hodge, T. Scopigno, G. Cerullo, and A. C. Ferrari, The European Conference on Lasers and Electro-Optics (CLEO Europe), Munich, Germany (2017). 

59 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). 

60 H. Yang, B. Fu (co-first author), 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 (2015). 

61 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 Highly Cited Paper (in 2017) 

62 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). 

63 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). 

64 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). 

65 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). 

66 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). 

67 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 (2013). 

68 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 (2013). 

69 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). 

70 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). 

71 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). 

72 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). 

73 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). 

74 S. Liu, S. Li, B. Fu, H. Zhou, and R. Feng, “Analysis of coupling characteristics of midinfrared high polarization chalcogenide glass dual-core photonic crystal fiber,” Acta Physica Sinica, 60, 034217 (2011). 

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

76 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). 

77 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 (2010). 

78 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). 

79 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). 

80 S. Li, Y. Yao, B. Fu, L. Zhang, Y. Zheng, and L. Hou, “Development and application of supercontinuum generation in photonic crystal fibers,” Physics, 39, 682 (2010).

81 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). 

82 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). 

83 L. Zhang, S. Li, Y. Yao, B. Fu, M. Zhang, and Y. Zheng, “Characteristics of nano-structured photonic crystal fibers with high birefringence,” Acta Physica Sinica, 59, 1101 (2010).  

84 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). 

85 W. Ma, S. Li, G. Yin, R. Feng, and B. Fu, “High efficiency pulse compression in tapered microstructure fibers in anomalous dispersion region,” Acta Physica Sinica, 59, 4720 (2010).  

86 M. Zhang, S. Li, Y. Yao, L. Zhang, B. Fu, and G. Yin, “Influence of micro-structured core on characteristics of photonic crystal fibers,” Acta Physica Sinica, 59, 3278 (2010).  

87 B. Fu, S. Li, Y. Yao, L. Zhang, M. Zhang, and S. Liu, “Coupling characteristics of dual-core high birefringence photonic crystal fibers,” Acta Physica Sinica, 58, 7708 (2009).


Patents

1 Bo Fu, Lijun Xu, Huisheng Liu, “Broadband wavelength-tunable dispersion-managed all-fiber ultrafast laser and system,” notice of authorization: CN109378694B, patent number: ZL201811566553.8

2 Bo Fu, Boqu He, Lijun Xu, Ce Shang, Jiangtao Sun, “A kind of space-access liquid pool for terahertz radiation generation,” notice of authorization: CN110492338B, patent number: ZL201910854315.5

3 Bo Fu, Boqu He, Lijun Xu, Ce Shang, Jianguo Ma, “A kind of fiber-access liquid pool for terahertz radiation generation,” notice of authorization: CN110556689B, patent number: ZL201910853500.2

4 Bo Fu, Lijun Xu, Chenghong Zhang, Jing Li, Zherui Lu, Ce Shang, “A method for monitoring aviation engine combustion field by space-access type optical frequency comb system,” notice of authorization: CN110657994B, patent number: ZL201910445707.6

5 Bo Fu, Lijun Xu, Chenghong Zhang, Gang Wang, Jinghao Huang, Shijie Sun, “A method for monitoring aviation engine combustion field by space-access type dual-optical comb system,” notice of authorization: CN110657992B, patent number: ZL201910988327.7

6 Bo Fu, Lijun Xu, Jing Li, Chenghong patent, Yuxuan Ma, Duan Li, “A method for monitoring aviation engine combustion field based on all-fiber optical frequency comb system,” notice of authorization: CN110657993B, patent number: ZL201910988885.3

7 Bo Fu, Lijun Xu, Ce Shang, Jingxuan Sun, Zhonghui Wang, Shuo Gao, “Wavelength-tunable all-fiber nanosecond pulse laser and system based on photonic crystal fiber,” notice of authorization: CN110535016B, patent number: ZL201910920905.3

8 Bo Fu, Lijun Xu, Ce Shang, Zhang Cao, Chenghong Zhang, Hongyu Zhang, “A method for monitoring aviation engine combustion field based on dual-optical comb all-fiber system,” notice of authorization: CN112842523B, patent number: ZL201910988351.0

9 Bo Fu, Xunming Ji, Jing Li, Lijun Xu, Yuan Cheng, Aojie Zhang, Zihao Wang, “An eccentric endoscope laser catheter,” notice of authorization: CN112842523B, patent number: ZL202110107602.7

10 Bo Fu, Jingjing Guo, Ce Shang, Lijun Xu, “Reflective glucose sensor and measurement system based on gold nanocomposite optical fiber,” application number: 202110489456.9

11 Bo Fu, Lijun Xu, Chenghong Zhang, Jingjing Guo, Yuan Cheng, Jingxuan Sun, “Method for detecting the concentration of symbolic breathing gas by cavity ring-down dual optical comb spectroscopy,” application number: 202110636720.7

12 Bo Fu, Lijun Xu, Jingxuan Sun, Jiale Chao, Hong Jin, Xiaoli Zhao, “All-fiber tunable spatiotemporal mode-locked laser and system based on multimode fiber” application number: 202210390661.4

13 Bo Fu, Lijun Xu, Gang Wang, Congyu Zhang, Jingxuan Sun, Chenghong Zhang, “A real-time switching method of pulsed laser regimes,” notice of authorization: CN112842525B, patent number: ZL202110112868.0

14 Xunming Ji, Bo Fu, Ce Shang, Lijun Xu, Jing Li, Hao Ouyang, Wenhao Lyu, “Laser ablation catheter of vascular endoscope,” patent number: 202311000979.8

15 Jingjing Guo, Lijun Xu, Ce Shang, Bo Fu, “Implantable hydrogel fiber grating glucose sensor, preparation method and measurement system,” notice of authorization: CN113171091B, patent number: ZL202110434492.5

16 Jianguo Ma, Lijun Xu, Xiangdong Ma, Bo Fu, “A kind of optical fiber array acoustic signal acquisition device based on laser interference,” notice of authorization: CN110553715B, patent number: ZL201910857667.6

17 Jianguo Ma, Lijun Xu, Xiangdong Ma, Bo Fu, “A kind of low-resonance eccentric optical fiber sound-sensitive sensing device based on F-P interference,” notice of authorization: CN111912908B, patent number: ZL201910400856.0

18 Jingjing Guo, Ce Shang, Lijun Xu, Jialin Tuo, Xiaoyan Guo, Bo Fu, “A flexible optical fiber tactile sensor with two parameters of temperature and pressure, preparation method and measurement system,” application number: 202211509336.1

19 Yongbiao Zhang, Cui Ma, Ke Mao, Xiaofeng Shi, Xiaopeng Xu, Ce Shang, Bo Fu, “cfRNA marker for predicting risk of preterm birth,” notice of authorization: CN110964800B, patent number: ZL201910890694.3

20 Yongbiao Zhang, Xiaopeng Xu, Xiaofeng Shi, Ke Mao, Zhuoyuan Jiang, Shangming Zhu, jiaqi Wu, Yan Zha, Ce Shang, Bo Fu, “An application method of composition for predicting probability of occurrence of short side deformity,” notice of authorization: CN111235265B, patent number: ZL202010156600.2

21 Jianguo Ma, Lijun Xu, Xiangdong Ma, Bo Fu, “All-optical ultrasonic detection device based on light-induced ultrasound and laser interference,”  application date: Sep. 30, 2020, date of patent: Dec. 28, 2021, application number: 17/039,539, patent number: 11209259




Personal information

Associate Professor
Supervisor of Doctorate Candidates

E-Mail:

Date of Employment:2018-04-03

School/Department:School of Instrumentation and Optoelectronic Engineering

Administrative Position:Associate Professor

Contact Information:fubo10@buaa.edu.cn

Alma Mater:Tsinghua University

Discipline:Instrumentation Science and Technology

Honors and Titles:

Advanced Grassroots Teachers  

Excellent Undergraduate Graduation Design Instructor  

Excellent Scientific and Technological Practice Instructor  

Beihang "Young Top-notch Talent"  

Beihang "Hundred Talent in Engineering Medicine"  

Beihang "Discipline Construction Contribution Award","International Cooperation and Exchange Contribution Award"  

Beihang "Fengru Cup" Excellent Guidance Teacher  

"Excellent Doctoral Dissertation" of Tsinghua University  

"Academic Rookie" of the Department of Precision Instruments of Tsinghua University  

"NSK Excellent Dissertation in Mechanical Engineering"  

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