Duanduan Wu (吴端端)

Lecturer

The Research Institute of Advanced Technologies

Ningbo University 

Ningbo 315211, China

Tel: 86-574-87609873, Email: wuduanduan@nbu.edu.cn 

 

PhD Electronic Science and Technology, Xiamen University, China, 2016 

BSc Electronic and Informational Engineering, Xiamen University, China, 2011

 

2017.04-Present, Lecturer, The Research Institute of Advanced Technologies, Ningbo University

 

2015.08-2016.08, Joint PhD, COFT, Nanyang Technological University

 

Mid-infrared pulsed fiber laser sources. 

Fiber nonlinear process (SRS, FWM, soliton, etc);

2-D materials-based (graphene, TI, etc) large-energy pulsed fiber laser sources; 

 

[1]Duanduan Wu*, Zhenrong Guo, Zhifang Wu, and Perry Ping Shum. 900 nm waveband four wave mixing generation in highly nonlinear photonic crystal fiber. Journal of Optics, 2018, 20(3): 035501.

[2]Duanduan Wu*, Zhiping Cai, and Huiying Xu. Compact two-color Pr3+-doped ZBLAN fiber lasers. Fiber and Integrated Optics, 2017, 36(4-5): 165-171.

[3]Duanduan Wu*, Jian Peng, Zhengqian Luo, Jian Weng, Zhiping Cai*, and Huiying Xu. Compact visible Q-switching fiber lasers with transition-metal dichalcogenides. IEEE Optical Communications and Networks (ICOCN) 2017 16th International Conference, 2017: 1-3.

[4]Zhengqian Luo#, Duanduan Wu#, Bin Xu, Huiying Xu, Zhiping Cai*, Jian Peng, Jian Weng*, Shuo Xu, Chunhui Zhu, Fengqiu Wang*, Zhipei Sun, and Han Zhang. Two-dimensional material-based saturable absorbers: towards compact visible-wavelength all-fiber pulsed lasers. Nanoscale, 2016, 8(2): 1066-1072.

[5]Duanduan Wu, Zhiping Cai*, Yile Zhong, Jian Peng, Yongjie Cheng, Jian Weng, Zhengqian Luo, and Huiying Xu. Compact passive Q-switching Pr3+-doped ZBLAN fiber laser with black phosphorus-based saturable absorber. IEEE Journal of Selected Topics in Quantum Electronics, 2016, 23(1): 0900106.

[6]Duanduan Wu, Huiyu Lin, Zhiping Cai*, Jian Peng, Yongjie Cheng, Jian Weng, and Huiying Xu. Saturable absorption of copper nanowires in visible region for short-pulse generation. IEEE Photonics Journal, 2016, 8(4): 4501507.

[7]Duanduan Wu, Zhifang Wu, Zhilin Xu, Jiangtao Zhou, Perry Ping Shum*, Zhiping Cai*, Hongyan Fu, and Huiying Xu. Compact continuous wave optical parametric amplifier for tunable 1.44-1.50 µm laser radiation. IEEE Optical Communications and Networks (ICOCN) 2016 15th International Conference, 2016: 1-3.

[8]Duanduan Wu, Jian Peng, Yile Zhong, Yongjie Cheng, Biao Qu, Jian Weng, Zhengqian Luo, Bin Xu, Nan Chen, Huiying Xu, and Zhiping Cai*. 2-D materials-based passively Q-switched 635 nm Pr3+-doped ZBLAN fiber lasers. Advanced Solid State Lasers, 2016, ATu2A.28.

[9]Duanduan Wu, Zhiping Cai*, Yile Zhong, Jian Peng, Jian Weng, Zhengqian Luo, Nan Chen, and Huiying Xu. 635 nm visible Pr3+-doped ZBLAN fiber lasers Q-switched by topological insulators SAs. IEEE Photonics Technology Letters, 2015, 27(22): 2379-2382.

[10]Duanduan Wu, Jian Peng, Zhiping Cai*, Jian Weng, Zhengqian Luo, Nan Chen, and Huiying Xu. Gold nanoparticles as a saturable absorber for visible 635 nm Q-switched pulse generation. Optics Express, 2015, 23(18): 24071-24076.

[11]Duanduan Wu, Zhengqian Luo*, Fengfu Xiong, Cankun Zhang, Yizhong Huang, Shanshan Chen, Weiwei Cai, Zhiping Cai, and Huiying Xu. Passive synchronization of 1.06- and 1.53-µm fiber lasers Q-switched by a common graphene SA. IEEE Photonics Technology Letters, 2014, 26(14): 1474-1477.

[12]Duanduan Wu, Fengfu Xiong, Cankun Zhang, Shanshan Chen, Huiying Xu*, Zhiping Cai, Weiwei Cai, Kaijun Che, and Zhengqian Luo. Large-energy, wavelength-tunable, all-fiber passively Q-switched Er: Yb-codoped double-clad fiber laser with mono-layer chemical vapor deposition graphene. Applied Optics, 2014, 53(19): 4089-4093.

[13]Duanduan Wu, Zhengqian Luo*, Zhiping Cai, and Huiying Xu. An all fiber self-Q-switched Er-Yb co-doped double-cladding fiber ring laser. Journal of Optoelectronics • Laser, 2014, 25(3): 460-464.

[14]Duanduan Wu, Yizhong Huang, Zhengqian Luo, Zhiping Cai*, and Huiying Xu. Cladding pumped all fiber mode-locked laser based on the interaction of graphene oxide and fiber-taper evanescent field generates large energy dissipative-soliton. Journal of Xiamen University (Natural Science), 2014, 53(5): 666-669.

[15]Jian Wu, Duanduan Wu, Yizhong Huang, Zhengqian Luo, Huiying Xu, and Zhiping Cai. Large pulse energy passively Q-switched Yb3+-doped double clad fiber laser with mono-layer CVD graphene. Journal of Xiamen University (Natural Science), 2014, 53(5): 661-665.

[16]Xing Li, Kai Xia, Duanduan Wu, Qiuhua Nie, and Shixun Dai. Bound states of solitons in a fiber laser with a microfiber-based WS2 saturable absorber. IEEE Photonics Technology Letters, 2017, 29(23)：2071-2074.

[17]Yile Zhong, Zhiping Cai, Duanduan Wu, Yongjie Cheng, Jian Peng, Jian Weng, Zhengqian Luo, Bin Xu, and Huiying Xu. Passively Q-switched red Pr3+-doped fiber laser with graphene-oxide saturable absorber. IEEE Photonics Technology Letters, 2016, 28(16): 1755-1758.

[18]Zhengqian Luo, Min Zhou, Duanduan Wu, Chenchun Ye, Jian Weng, Jun Dong, Huiying Xu, Zhiping Cai, and Lujian Chen. Graphene-induced nonlinear four-wave-mixing and its application to multiwavelength Q-switched rare-earth-doped fiber lasers. Journal of Lightwave Technology, 2011, 29(18): 2732-2739.

[19]Liming Cao, Xing Li, Rui Zhang, Duanduan Wu, Shixun Dai, Jian Peng, Jian Weng, and Qiuhua Nie. Tm-doped fiber laser mode-locking with MoS2-polyvinyl alcohol saturable absorber. Optical Fiber Technology, 2018, 41: 187-192.

[20]Wensong Li, Jian Peng, Yile Zhong, Duanduan Wu, Huiyu Lin, Yongjie Cheng, Zhengqian Luo, Jian Weng, Huiying Xu, and Zhiping Cai. Orange-light passively Q-switched Pr3+-doped all-fiber lasers with transition-metal dichalcogenide saturable absorbers. Optical Materials Express, 2016, 6(6): 2031-2039.

[21]Zhengqian Luo, Min Zhong, Fengfu Xiong, Duanduan Wu, Yizhong Huang, Yingyue Li, Lili Le, Bin Xu, Huiying Xu, and Zhiping Cai. Intermode beating mode-locking technique for O-band mixed-cascaded Raman fiber lasers. Optics Letters, 2015, 40(4): 502-505.

[22]Yizhong Huang, Zhengqian Luo, Chun Liu, Duanduan Wu, Yingyue Li, and Lili Le. 2-μm wavelength all-fiber Q-switched double-clad fiber laser using monopiece single-layer chemical-vapor-deposition graphene. Optical Engineering, 2014, 53(10): 106103.

[23]Zhengqian Luo, Chun Liu, Yizhong Huang, Duanduan Wu, Jianyu Wu, Huiying Xu, Zhiping Cai, Zhiqin Lin, Liping Sun, and Jian Weng. Topological-insulator passively Q-switched double-clad fiber laser at 2 µm wavelength. IEEE Journal of Selected Topics in Quantum Electronics, 2014, 20(5): 0902708.

[24]Rui Zhang, Xing Li, Shenggan Dai, Junpeng Li, Liming Cao, Duanduan Wu, Shixun Dai, Jian Peng, Jian Weng, and Qiuhua Nie. All-fiber 2 μm mode-locked thulium-doped fiber laser with the graphene oxide film. Optik-International Journal for Light and Electron Optics, 2017, 157: 1292-1299.

[25]Chun Liu, Zhengqian Luo, Yizhong Huang, Biao Qu, Huihui Cheng, Ying Wang, Duanduan Wu, Huiying Xu, and Zhiping Cai. Self-mode-locked 2 μm Tm3+-doped double-clad fiber laser with a simple linear cavity. Applied Optics, 2014, 53(5): 892-897.

[26]Chun Liu, Chenchun Ye, Zhengqian Luo, Huihui Cheng, Duanduan Wu, Yonglong Zheng, Zhen Liu, and Biao Qu. High-energy passively Q-switched 2 μm Tm3+-doped double-clad fiber laser using graphene-oxide-deposited fiber taper. Optics Express, 2013, 21(1): 204-209.