Title: [Associate Professor]
Affiliation: [Laboratory of Infrared Material and Devices], [Ningbo University], [No.818 Fenghua Road], [Jiangbei], [Ningbo] [315211], [Zhejiang], P. R. China
E-mail: [yangpeilong@nbu.edu.cn]
[09/2015]-[07/2018] [Ph.D.] in [Optical Engineering]. [Xidian University], [xi’an], [China].
[07/2012]-[09/2015] [M. S.] in [Communication and Information System], [Ningbo University], [Ningbo], [China].
[07/2006]-[09/2010] [B. S.] in [Physics], [Longdong University], [Qingyang], [China].
• [1] [Advanced Mid-infrared Fiber Ultra-Fast Lasers]
• [2] [Nonlinear Phenomena in Infrared Fibers]
• [3] [Mid-infrared Supercontinuum Generation]
• 2023, "Yuanchuang Cup" Disruptive Technology Innovation Competition, sponsored by the Science and Technology Bureau of the National Ministries and Commissions.
• Award for: High-power mid-infrared laser source development (Ranked 2nd).
• 2022, Ningbo Innovation Competition, Ningbo Science and Technology Bureau.
• Award for: All-fiber mid-infrared supercontinuum laser source development (Ranked 1st).
[1] [Yang Peilong] of “[All-fiber ***source development]”. Supported by [Huiyan Action] (Grant No: ******, [04/2024]-[10/2025]), [1.15 million CNY], [Status: completed].
[2] [Yang Peilong] of “[Research on all-fiber high-power mid-infrared supercontinuum generation based on artificial microstructured light field manipulation]”. Supported by [Ningbo Natural Science Foundation] (Grant No: 2022J078, [09/2022]-[10/2025]), [0.2 million CNY], [Status: completed].
[3] [Yang Peilong] of “[Research on self-similar mode-locked pulse characteristics of 3 μm fiber lasers based on dispersion management in chalcogenide fibers]”. Supported by [National Natural Science Foundation of China] (Grant No: 61905126, [01/2022]-[12/2022]), [0.24 million CNY], [Status: completed].
[4] [Yang Peilong] of “[Research on Brillouin fiber lasers based on novel mid-infrared chalcogenide glass fibers]”. Supported by [China Postdoctoral Science Foundation] (Grant No: 2018M642386, [01/2019]-[12/2020]), [0.05 million CNY], [Status: completed].
1. [Yang Peilong], [Wang Juan], [Ge Siyu], [Ren Hongfei],[Huang Tao],[ Xia Kai], [Nie Qiuhua],[ Dai Shixun], (2022): [A broadband tunable mid-infrared all-fiber ultrashort pulse laser.]. [Patent Type, e.g., Chinese National Invention Patent] (Patent No [ZL202122713117.2]) , application date [15.07.2022])
2. [Yang Peilong],[ Ren Hongfei], [Ge Siyu],[ Wang Juan], [Huang Tao], [Xia Kai], [Nie Qiuhua], [Dai Shixun], (2022): [A 2–3 μm broadband tunable mid-infrared Raman soliton femtosecond laser]. [Chinese National Invention Patent] (Application No [ZL202122713098.3], application date [17.06.2022])
[1] Xia Kai, Lele Yu, Yang Peilong*, Zhilin Zhang, Xian-ge Wang, Baining Huang, Peipeng Xu, Shixun Dai, Qiuhua Nie (2024): 10 W-level, all-fiber supercontinuum generation from visible to mid-infrared by broadband laser beam combination in GeO2-core fiber. Journal of Lightwave Technology, 43(6), pp. 3509020-3509029.
[2] Xia Kai, Zhen Yang, Peipei Zhao, Yang Peilong*, Peipeng Xu, Lulu Xu, Xuefeng Peng, Wei Zhang, Shixun Dai, Rongping Wang, Qiuhua Nie (2023): Supercontinuum generation in As2S3 chalcogenide waveguide pumped by all-fiber structured dual-femtosecond solitons. Optics Express, 31(18), pp. 29440-29451.
[3] Ge Siyu, Wang Juan, Ren Hongfei, Huang Tao, Yang Peilong*, Xia Kai, Mo Shaohui, Qiu Miao, Xu Peipeng, Bai Shengchuang, Dai Shixun, Nie Qiuhua (2022): High-efficient tunable femtosecond solitons generation from 1.9 to 2.35 μm in thulium-doped fiber amplifier via precise seed-pulse management. Optics Express, 30(2), pp. 3089-3100.
[4] Ren Hongfei, Xia Kai, Wang Juan, Ge Siyu, Huang Tao, Yang Peilong*, Xu Peipeng, Mo Shaohui, Qiu Miao, Bai Shengchuang, Chen Feifei, Dai Shixun, Nie Qiuhua (2022): The polarization-aided tunable high-power femtosecond Raman solitons generation from 1.96 to 3.1 μm in fibers cascaded system. Optics & Laser Technology, 150, 107934.
[5] Huang Tao, Xia Kai, Wang Juan, Ren Hongfei, Bai Shengchuang, Yang Peilong*, Ge Siyu, Yang Lingling, Qiu Miao, Yang Fan, Mo Shaohui, Zhang Peiqing, Zhao Ruwei, Liu Yongxing, Wang Xunsi, Dai Shixun, Nie Qiuhua (2021): 2–8 μm supercontinuum generation and the precise estimation of multi-pulse spectral evolution in the soft-glass fibers cascaded nonlinear system. Optics Express, 29(25), pp. 40934-40946.