Xin Zeng, Lu Han, Zeze Chen, Xuezong Yang, Huawei Jiang, Weibiao Chen, and Yan Feng, “Enhanced second-harmonic generation with four-wave-mixing broadened fundamental laser,” Opt. Express 33, 52764-52772 (2025).
Shaowei Huang, Zhi Cheng, Xinru Cao, Yatan Xiong, Yingjuan Shi, Yan Feng, Fu Yang, Jiqiao Liu, Jiaqi Zhou, and Weibiao Chen, “High-power U-band femtosecond laser pulses generated by nonlinear optical gain modulation,” Opt. Lett. 50, 7380-7383 (2025).
Haotuo Shen, Huawei Jiang, Jiaqi Zhou, Xuezong Yang, Yan Feng, Spectrum, beam quality and temporal stability of a diode pumped GRIN fiber Raman laser, Opt. Fiber Technol., 94, 104345(2025).
Yatan Xiong, Jiaqi Zhou, Yingjuan Shi, Shaowei Huang, Zhi Cheng, and Yan Feng, “Timing jitter and linewidth measurement of optical frequency combs based on Brillouin amplification of single comb line,” Opt. Express 33, 46785-46795 (2025)
Muye Li, Yuxiang Sun, Huawei Jiang, Xuezong Yang, and Yan Feng. “213.4 W Continuous-Wave Diamond Raman Laser at 1240 Nm with Polarization-Combined Pumping.” High Power Laser Science and Engineering, 2025, 1–15
Shaowei Huang, Xinru Cao, Wei Long, Zhi Cheng, Yatan Xiong, Yingjuan Shi, Yan Feng, Fu Yang, Dijun Chen, Jiqiao Liu, Jiaqi Zhou, Weibiao Chen, “ Mutual Coherence Enhanced Dual-Comb Spectroscopy by Raman Gain Modulation.” Laser Photonics Rev (2025): e01971.
Zhi Cheng, Jiaqi Zhou, Ting Yu, Yunmeng Liu, Xinru Cao, Yatan Xiong, Yingjuan Shi, and Yan Feng, “Synchronized multi-wavelength picosecond pulse generation by a single-frequency laser seeded Raman fiber amplifier,” Opt. Lett. 50, 4358-4361 (2025)
Yingjuan Shi, Xinru Cao, Zhi Cheng, Yatan Xiong, Yan Feng, and Jiaqi Zhou, “Revealing influence of timing jitter on ultrafast Raman fiber laser synchronously-pumped by gain-switched diode,” Opt. Express 33, 24018-24026 (2025)
Zhi Cheng , Jiaqi Zhou, Xinru Cao, Yatan Xiong, Yingjuan Shi, Xun Yang, Shuzhen Cui, and Yan Feng. “Integrated Ultrafast Yb-Raman Fiber Amplifier Based on Nonlinear Optical Gain Modulation.” High Power Laser Science and Engineering 13, e49(2025).
Yatan Xiong, Jiaqi Zhou, Xinru Cao, Zhi Cheng, Huawei Jiang, Shuzhen Cui, and Yan Feng, “Low-noise extraction of a single frequency comb line by fiber Brillouin amplification,” Opt. Express 33, 16631-16645 (2025).
Hanlin Jiang, Chao Ma, Mingjian Wang, Zhenzhen Yu, Yue Song, Yan Feng, Shiguang Li, Jiqiao Liu, Xia Hou, Weibiao Chen, “A kilohertz nanosecond 1645 nm KTA-OPO pumped by a 1064 nm pulse laser for methane detection,” Chin. Opt. Lett. 23, 061401 (2025)
2024
Xinru Cao, Zhi Cheng, Yatan Xiong, Xuan Li, Qing Ye, Zhiyuan Guo, Yan Feng, Jiaqi Zhou, “Generating Narrow Bandwidth Pulses in an All-Fiber Figure-9 Mode-Locked Fiber Laser,” IEEE J. Quantum Electron., 61, 1600205(2024).
J. Zhou, Y. Xiong, Z. Cheng, X. Cao, Y. Feng, Coherent Conversion Between Single-Frequency and Ultrafast Lasers. ANNALEN DER PHYSIK 537, 2400198(2024).
Yuxiang Sun, Xuezong Yang, Muye Li, Xin Zeng, Huawei Jiang, and Yan Feng, “Diamond guide star laser pulsed at a Larmor frequency,” Opt. Express 32, 46345-46352 (2024)
Xinru Cao, Xin Li, Sha Li, Zhi Cheng, Yatan Xiong, Yan Feng, Xiaoyang Guo, Jiaqi Zhou, All-fiber low-noise 1.06 μm optical frequency comb generated by a figure-9 laser with chirped fiber Bragg grating, Opt. Fiber Technol., 86, 103853(2024).
Yan, Y., Sun, Y., Yang, X. et al. External-cavity tunable yellow-red laser based on Ng-cut KGW Raman conversion and frequency mixing. Appl. Phys. B 130, 165 (2024).
Z. Cheng, J. Zhou, X. Cao, S. Cui, H. Jiang, Y. Feng, Repetition-Rate and Wavelength Flexible Femtosecond Laser Pulse Generation. Laser Photonics Rev. 18, 2400788(2024).
Chengjie Zhu, Xuezong Yang, Yuxuan Liu, Muye Li, Yuxiang Sun, Jiajie Fang, Dijun Chen, Weibiao Chen, Yan Feng; GHz-level repetition rate synchronously pumped diamond Raman laser based on bidirectional gain. Appl. Phys. Lett. 125 (4), 041103(2024).
Yuxuan Liu, Xuezong Yang, Chengjie Zhu, Yuxiang Sun, Muye Li, Xin Cheng, Richard P. Mildren, Dijun Chen, Weibiao Chen, and Yan Feng, “Reduction of relative intensity noise in a diamond Raman laser,” Opt. Express 32, 18562-18571 (2024)
X. Cheng, X. Yang, H. Jiang, X. Zeng, and Y. Feng, “Robust low-noise 795-nm single-frequency fiber laser with continuous frequency tuning,” Opt. Fiber Technol., 84, 103783(2024).
Lu Han, Xin Zeng, Xin Cheng, Xuezong Yang, and Yan Feng, “20 Watt single-frequency 509 nm laser by single-pass second harmonic generation in an LBO crystal,” Opt. Express 32, 14713-14718 (2024).
Xin Li, Sha Li, Xuan Li, Yafei Wang, Zhi Cheng, Yatan Xiong, Xinru Cao, Yan Feng, and Jiaqi Zhou, “Low repetition rate 915 nm figure-9 ultrafast laser with all-fiber structure,” Opt. Express 32, 11271-11280 (2024).
2023
Y. Xiong, J. Zhou, X. Cao, S. Cui, H. Jiang, and Y. Feng, “Highly Discriminative Amplification of a Single Frequency Comb Line,” Laser Photon. Rev. 2300769 (2023).
X. Cao, J. Zhou, Z. Cheng, S. Li, and Y. Feng, “GHz Figure-9 Er-Doped Optical Frequency Comb Based on Nested Fiber Ring Resonators,” Laser Photon. Rev. 17, 2300537 (2023).
Y. Liu, C. Zhu, Y. Sun, R. P. Mildren, Z. Bai, B. Zhang, W. Chen, D. Chen, M. Li, X. Yang, and Y. Feng, “High-power free-running single-longitudinal-mode diamond Raman laser enabled by suppressing parasitic stimulated Brillouin scattering,” High Power Laser Sci. Eng. 11, e72 (2023).
C. Zhu, X. Yang, Y. Liu, M. Li, Y. Sun, W. You, P. Dong, D. Chen, Y. Feng, and W. Chen, “A Linearly Polarized Wavelength-Tunable Q-Switched Fiber Laser with a Narrow Spectral Bandwidth of 112 MHz,” Sensors 23, 5128 (2023).
Xin Li, Jiaqi Zhou, Zhi Cheng, Xinru Cao, Weiao Qi, Sha Li, Shuzhen Cui, Huawei Jiang, and Yan Feng, “Generation of 978 nm dispersion-managed solitons from a polarization-maintaining Yb-doped figure-of-9 fiber laser,” Opt. Lett. 48, 3051-3054 (2023)
X. Zeng, S. Cui, H. Jiang, B. Ruan, X. Cheng, J. Zhou, Z. Lin, X. Yang, W. Chen, and Y. Feng, “Single-frequency upconverted laser generation by phase summation,” High Power Laser Sci. Eng. 11, e18 (2023).
Bowen Ruan, Xin Zeng, and Yan Feng, “Modeling of a second harmonic spectrum in passive phase demodulation,” Appl. Opt. 62, 2809-2814 (2023)
Weiao Qi, Jiaqi Zhou, Xinru Cao, Zhi Cheng, Sha Li, Huawei Jiang, Shuzhen Cui, and Yan Feng, “Generation of 1.3 µm femtosecond pulses by cascaded nonlinear optical gain modulation in phosphosilicate fiber,” Opt. Lett. 48, 1698-1701 (2023)
Zhiquan Lin, Shuzhen Cui, Huawei Jiang, Xin Zeng, Xuezong Yang, Dijun Chen, Yan Feng, and Weibiao Chen, “Efficient single-frequency 972 nm Yb-doped fiber amplifier with core pumping and elevated temperature,” Opt. Express 31, 10019-10026 (2023)
Muye Li, Xuezong yang, Yuxiang Sun, Huawei Jiang, Richard P. Mildren, Ondrej Kitzler, David J. Spence, and Yan feng, “Secondary Raman and Brillouin mode suppression in two- and three-mirror-cavity diamond Raman lasers,” Opt. Express 31, 8622-8631 (2023)
X. Cheng, Z. Lin, X. Yang, S. Cui, X. Zeng, H. Jiang, and Y. Feng, “High-power 1560 nm single-frequency erbium fiber amplifier core-pumped at 1480 nm,” High Power Laser Sci. Eng. 11, e3 (2023).
Sha Li, Xin Zeng, Jiaqi Zhou, Zhi Cheng, and Yan Feng, “Polarization and longitudinal modes of Möbius fiber ring lasers,” Optica 9, 1394–1400 (2022).
J. Zhou, W. Pan, W. Qi, X. Cao, Z. Cheng, and Y. Feng, “Ultrafast Raman fiber laser: a review and prospect,” PhotoniX 3, Article number 18 (2022).
W. Qi, J. Zhou, X. Cao, Z. Cheng, H. Jiang, S. Cui, and Y. Feng, “Numerical simulation of nonlinear optical gain modulation in a Raman fiber amplifier,” Opt. Express 30, 34848-34861 (2022).
S. Cui, X. Zeng, H. Jiang, X. Cheng, X. Yang, J. Zhou, and Y. Feng, “Robust single-frequency 589 nm fiber laser based on phase modulation and passive demodulation,” Opt. Express 30, 9112-9118 (2022).
W. Qi, J. Zhou, X. Cao, Z. Cheng, H. Jiang, S. Cui, and Y. Feng, “Cascaded nonlinear optical gain modulation for coherent femtosecond pulse generation,” Opt. Express 30, 8889-8897 (2022).
Y. Liu, W. You, C. Zhu, M. Li, Y. Sun, X. Yin, D. Chen, Y. Feng, W. Chen, and X. Yang, “A review of ns-pulsed Raman lasers based on diamond crystal,” Front. Phys. 10, 1153 (2022).
Y. Sun, M. Li, O. Kitzler, R. P. Mildren, Z. Bai, H. Zhang, J. Lu, Y. Feng, and X. Yang, “Stable high-efficiency continuous-wave diamond Raman laser at 1178 nm,” Laser Phys. Lett. 19, 125001 (2022).
Y. Sun, M. Li, R. P. Mildren, Z. Bai, H. Zhang, J. Lu, Y. Feng, and X. Yang, “High-power continuous-wave single-frequency diamond Raman laser at 1178 nm,” Appl. Phys. Lett. 121, 141104 (2022).
Y. Chen, J. Liu, X. Zhu, M. Wang, X. Yang, Y. Feng, X. Chen, and W. Chen, “Intracavity frequency-doubled pulsed diamond Raman laser emitting at 620 nm,” Appl. Phys. B Lasers Opt. 128, 1–5 (2022).
J. Feng, J. Zhou, J. Xu, Y. Feng, and X. Zeng, “Generating Femtosecond Vortex Beams Based on Broadband LPFG in Figure-9 Mode-Locked Fiber Laser,” IEEE Photonics Technol. Lett. 34, 625–628 (2022).
X. Zhu, F. Yu, D. Wu, Y. Feng, S. Chen, Y. Jiang, and L. Hu, “Low-threshold continuous operation of fiber gas Raman laser based on large-core anti-resonant hollow-core fiber,” Chinese Opt. Lett. Vol. 20, Issue 7, pp. 071401 (2022).
X. Cheng, J. Dong, X. Zeng, J. Zhou, S. Cui, W. Qi, Z. Lin, H. Jiang, and Y. Feng, “130 W continuous-wave supercontinuum generation within a random Raman fiber laser,” Opt. Fiber Technol. 68, 102825 (2022).
J. Zhou, W. Qi, X. Zeng, X. Cheng, H. Jiang, S. Cui, and Y. Feng, “All-Polarization-Maintaining, Ultra-Compact Tm-Doped Fiber Laser Designed for Mid-Infrared Comb,” IEEE Photonics Technol. Lett. 34, 89–92 (2022).
W. Qi, J. Zhou, S. Cui, X. Cheng, X. Zeng, and Y. Feng, “Femtosecond Pulse Generation by Nonlinear Optical Gain Modulation,” Adv. Photonics Res. 3, 2100255 (2022).
X. Zeng, S. Cui, X. Cheng, and Y. Feng, “Spectral compression by phase doubling in second harmonic generation,” Opt. Lett. 47(2), pp. 222-225 (2022).
2021
Xuezong Yang, Zhenxu Bai, Dijun Chen, Weibiao Chen, Yan Feng, and Richard P. Mildren, “Widely-tunable single-frequency diamond Raman laser,” Opt. Express 29, 29449-29457 (2021).
X. Yang, Z. Bai, H. Jiang, R. P. Mildren, and Y. Feng, “A Narrow-Linewidth Linearly Polarized 1018-nm Fiber Source for Pumping Diamond Raman Laser,” Front. Phys. 9, 727109 (2021).
Y. Duan, J. Zhou, L. Wang, Y. Huang, Y. Li, Y. Feng, L. Liu, and T. Li, “Dissipative solitons in a compact Er-doped all-fiber figure-of-9 laser,” Opt. Fiber Technol. 64, 102550 (2021).
S. Cui, J. Qian, X. Zeng, X. Cheng, X. Gu, and Y. Feng, “A watt-level yellow random laser via single-pass frequency doubling of a random Raman fiber laser,” Opt. Fiber Technol. 64, 102552 (2021).
Xin Cheng, Shuzhen Cui, Xin Zeng, Jiaqi Zhou, and Yan Feng, “Spectral and RIN properties of a single-frequency Raman fiber amplifier co-pumped by ASE source,” Opt. Express 29, 15764-15771 (2021)
Zhi Cheng, Mariusz Klimczak, Ryszard Buczyński, Jian Kong, Xiahui Tang, Ming Tang, Yan Feng, and Luming Zhao, “Period doubling and merging of multiple dissipative-soliton-resonance pulses in a fiber laser,” Appl. Opt. 60, 3322-3326 (2021).
Jiaqi Zhou, Weiao Qi, Weiwei Pan, and Yan Feng, “Dissipative soliton generation from a large anomalous dispersion ytterbium-doped fiber laser,” Opt. Lett. 45, 5768-5771 (2020)
X. Zeng, S. Cui, J. Qian, X. Cheng, J. Dong, J. Zhou, Z. Xu, and Y. Feng, “10 W low-noise green laser generation by the single-pass frequency doubling of a single-frequency fiber amplifier,” Laser Phys. 30(7), 6 (2020).
J. Dong, X. Zeng, S. Cui, J. Zhou, and Y. Feng, “More than 20 W fiber-based continuous-wave single frequency laser at 780 nm,” Opt. Express 27(24), 35362 (2019).
J. Zhou, W. Pan, X. Fu, L. Zhang, and Y. Feng, “Environmentally-stable 50-fs pulse generation directly from an Er:fiber oscillator,” Opt. Fiber Technol. 52, 101963 (2019).
T. Fan, X. Yang, J. Dong, L. Zhang, S. Cui, J. Qian, R. Dong, K. Deng, T. Zhou, K. Wei, Y. Feng, and W. Chen, “Remote Magnetometry With Mesospheric Sodium Based on Gated Photon Counting,” J. Geophys. Res. Sp. Phys. 124(9), 7505–7512 (2019).
W. Pan, J. Zhou, L. Zhang, and Y. Feng, “Raman dissipative soliton fiber laser mode locked by a nonlinear optical loop mirror,” Opt. Express 27(13), 17905 (2019).
J. Dong, L. Zhang, J. Zhou, W. Pan, X. Gu, and Y. Feng, “More than 200 W random Raman fiber laser with ultra-short cavity length based on phosphosilicate fiber,” Opt. Lett. 44, 1801 (2019).
S. Cui, L. Zhang, H. Jiang, W. Pan, X. Yang, G. Qin, and Y. Feng, “High efficiency frequency doubling with a passive enhancement cavity,” Laser Phys. Lett. 16, 035105 (2019).
X. Yang, O. Kitzler, D. J. Spence, R. J. Williams, Z. Bai, S. Sarang, L. Zhang, Y. Feng, and R. P. Mildren, “Single-frequency 620 nm diamond laser at high power, stabilized via harmonic self-suppression and spatial-hole-burning-free gain,” Opt. Lett. 44, 839 (2019).
S. Z. Cui, J. Y. Dong, X. Zeng, X. Cheng, and Y. Feng “Development of fiber-based yellow laser for dermatological applications”, Proc. SPIE 11181, High-Power Lasers and Applications X, 1118110 (19 November 2019.
Yan Feng, “Wavelength-agile fiber amplifiers for quantum technology (invited),” CIOP 2019, Xi’an China.
Xin Zeng, Shuzhen Cui, Jiaping Qian, Lei Zhang, Xiaohu Fu, Yan Feng, “High-power low-noise green laser generation by single-pass second harmonic generation of a single-frequency fiber amplifier,” CIOP 2019, Xi’an China.
Yan Feng, “High order and high spectral purity random Raman fiber lasers (invited),” ICOCN 2019, Huangshan, China.
J. Zhou, W. Pan and Y. Feng, “Raman Dissipative-soliton Generation with a Nonlinear Optical Loop Mirror in a Polarization Maintaining Fiber Cavity,” ICOCN 2019, Huangshan, China.
X. Cheng, W. Pan, J. Dong, X. Fu and Y. Feng, “Relative Intensity Noise Measurement of a Fiber Laser,” ICOCN 2019, Huangshan, China.
X. Yang, O. Kitzler, D. J. Spence, R. J. Williams, Z. Bai, S. Sarang, L. Zhang, Y. Feng, and R. P. Mildren, “High-power single-frequency 620 nm laser based on diamond raman and intracavity frequency doubling,” CLEO/Europe-EQEC 2019.
J. Zhou, W. Pan, and Y. Feng, “Generation of ultra-stable period-multiplied pulsing in a figure-of-9 fiber cavity,” in Frontiers in Optics + Laser Science APS/DLS, OSA Technical Digest (Optical Society of America, 2019), paper JW4A.42.
J. Dong, L. Zhang, H. Jiang, and Y. Feng, “20W fiber-based continuous-wave single frequency laser at 780 nm,” in Frontiers in Optics + Laser Science APS/DLS, OSA Technical Digest (Optical Society of America, 2019), paper FW1B.2.
Y. Feng, T. Fan, and T. Zhou, “Sodium Magnetometry,” in Conference on Lasers and Electro-Optics, OSA Technical Digest (Optical Society of America, 2019), paper JW2A.115.
J. Zhou, W. Pan, and Y. Feng, “Generation of ultra-stable 50-fs pulses directly from an Er-doped fiber oscillator,” in Conference on Lasers and Electro-Optics, OSA Technical Digest (Optical Society of America, 2019), paper JW2A.75.
2018
C. Yao, Z. Jia, Z. Li, S. Jia, Z. Zhao, L. Zhang, Y. Feng, G. Qin, Y. Ohishi, and W. Qin, “High-power mid-infrared supercontinuum laser source using fluorotellurite fiber,” Optica 5, 1264 (2018).
Jiaqi Zhou, Weiwei Pan, Xijia Gu, Lei Zhang, and Yan Feng, “Dissipative-soliton generation with nonlinear-polarization-evolution in a polarization maintaining fiber,” Opt. Express 26, 4166-4171 (2018)
S. J. Jia, Z. X. Jia, C. F. Yao, S. B. Wang, H. W. Jiang, L. Zhang, Y. Feng, G. S. Qin, Y. Ohishi, and W. P. Qin, “Ho 3+ doped fluoroaluminate glass fibers for 2.9 µ m lasing,” Laser Phys. 28, 15802 (2018).
S. Jia, Z. Jia, C. Yao, L. Zhang, Y. Feng, G. Qin, Y. Ohishi, and W. Qin, “2875 nm Lasing From Ho 3+ -Doped Fluoroindate Glass Fibers,” IEEE Photonics Technol. Lett. 30, 323–326 (2018).
Yan Feng, “High power single frequency fiber amplifier for quantum technology (invited),” LIMIS 2018, Changsha, China, November 2018.
Jinyan Dong, Lei Zhang, Huawei Jiang, Yan Feng, “Hundred watt 10th order random Raman fiber laser,” ASSL, Boston, USA, November 2018.
Yan Feng, “High-power, widely wavelength-tunable Raman fiber lasers (invited),” XXII International Symposium on High Power Laser Systems and Applications (HPLS&A), Frascati, Rome, October 2018.
Yan Feng, “High power fiber lasers covering 1 to 2 μm (invited),” International Symposium on Optoelectronic Technology and Application (OTA 2018), Beijing, May 2018.
Ruchen Zhao, Xiaohu Fu, Lei Zhang, Su Fang, Jianfang Sun, Yan Feng, Zhen Xu, and Yuzhu Wang, “High-power continuous-wave narrow-linewidth 253.7 nm deep-ultraviolet laser,” Appl. Opt. 56, 8973-8977 (2017)
S. Cui, L. Zhang, H. Jiang, and Y. Feng, “33 W continuous-wave single-frequency green laser by frequency doubling of a single-mode YDFA,” Chin. Opt. Lett. 15, 041402 (2017).
L. Zhang, H. Jiang, X. Yang, W. Pan, S. Cui, and Y. Feng, “Nearly-octave wavelength tuning of a continuous wave fiber laser,” Sci. Rep. 7, 42611 (2017).
N. Li, F. Wang, C. Yao, Z. Jia, L. Zhang, Y. Feng, M. Hu, G. Qin, Y. Ohishi, and W. Qin, “Coherent supercontinuum generation from 1.4 to 4 μm in a tapered fluorotellurite microstructured fiber pumped by a 1980 nm femtosecond fiber laser,” Appl. Phys. Lett. 110, 61102 (2017).
W. Pan, L. Zhang, H. Jiang, X. Yang, S. Cui, and Y. Feng, “Pulsed random Raman fiber laser under ultrashort pulse pumping,” in Asia Communications and Photonics Conference 2017, M1A. 6.
W. Pan, L. Zhang, J. Zhou, X. Yang, and Y. Feng, “Raman dissipative soliton fiber laser pumped by an ASE source,” in Advanced Solid State Lasers (OSA, 2017), p. JM5A. 37.
Xuezong Yang, Lei Zhang, Shuzhen Cui, Tingwei Fan, Huawei Jiang, Jinyan Dong, Yan Feng, “Sodium Guide Star Laser Pulsed At Larmor Frequency,” CLEO PR 2017, Oral 3-3M-3, Singapore.
Xuezong Yang, Lei Zhang, and Yan Feng, “RFA-Based 589 nm Guide Star Laser Pulsed at Larmor Frequency”, in the 9th International Conference on Information Optics and Photonics (CIOP), July 2017, Harbin.
Yan Feng, Lei Zhang, and Xuezong Yang, “Pulsed sodium guide star laser based on Raman fiber amplifiers (invited),” ALT’17, Busan, Korea.
N. Li, M. Y. Liu, X. J. Gao, L. Zhang, Z. X. Jia, Y. Feng, Y. Ohishi, G. S. Qin, and W. P. Qin, “All-fiber widely tunable mode-locked thulium-doped laser using a curvature multimode interference filter,” Laser Phys. Lett. 13, 75103 (2016).
C. Yao, Z. Jia, C. He, S. Wang, L. Zhang, Y. Feng, Y. Ohishi, G. Qin, and W. Qin, “2.074 μm- Lasing From Ho 3+ -Doped Fluorotellurite Microstructured Fibers Pumped by a 1120-nm Laser,” IEEE Photonics Technol. Lett. 28, 1084–1087 (2016).
T. Fan, T. Zhou, and Y. Feng, “Improving sodium laser guide star brightness by polarization switching.,” Sci. Rep. 6, 19859 (2016).
Yan Feng, “Recent advances in Raman fiber lasers (invited),” SPIE Photonics Asia 2016 (Beijing, China), 10016-22.
L. Zhang, H. Jiang, X. Yang, W. Pan, S. Cui, and Y. Feng, “Nearly-octave continuously wavelength tuning of a fiber laser,” in Lasers Congress 2016 (ASSL, LSC, LAC) (OSA, 2016), p. ATh5A.6.
H. Jiang, L. Zhang, X. Yang, and Y. Feng, “Efficient silica-based fiber laser source at > 2.1 μm,” in Advanced Photonics 2016 (OSA, 2016), p. SoTu2G.2.
T. Fan, T. Zhou, and Y. Feng, “Polarization switching of sodium guide star laser for brightness enhancement,” in E. Marchetti, L. M. Close, and J.-P. Véran, eds. (SPIE, 2016), p. 99095F.
L. Zhang, J. Hu, H. Jiang, X. Yang, and Y. Feng, “Ultra-broadband tuning of a cascaded Raman random distributed feedback fiber laser,” in The European Conference on Lasers and Electro-Optics (Optical Society of America, 2015), p. CJ_P_11.
Y. Feng, L. Zhang, and H. Jiang, “Power scaling of high power Raman fiber laser,” in Advanced Solid State Lasers (OSA, 2014), p. ATu3A.7.
L. Zhang, H. Jiang, S. Cui, J. Hu, and Y. Feng, “Recent progress in Raman fiber amplifier based 589 nm laser,” in Advanced Solid State Lasers (OSA, 2014), p. ATu2A.38.
H. Jiang, L. Zhang, and Y. Feng, “Multiple-clad Raman fiber laser for brightness enhancement,” in Advanced Solid State Lasers (OSA, 2014), p. AM5A.23.
J. Hu, L. Zhang, and Y. Feng, “Widely tunable Yb-doped all-fiber laser from 1.0 to 1.1 μm,” in Advanced Solid State Lasers (OSA, 2014), p. AM5A.22.
Yan Feng, “High power Raman fiber lasers and application in laser guide star (invited),” International Symposium on Electrooptics and Nonlinear Optics, September 2014, Harbin.
L. Zhang, H. Jiang, and Y. Feng, “A 1.3 kW Raman fiber laser (postdeadline paper),” in International Photonics and OptoElectronics Meetings (OSA, 2014), p. FF4B.1.
L. Zhang, H. Jiang, S. Cui, J. Hu, L. Chen, and Y. Feng, “Over 50 W 589 nm single frequency laser by frequency doubling of single Raman fiber amplifier,” in CLEO: 2014 (OSA, 2014), p. SW3N.7.
J. Hu, L. Zhang, H. Liu, K. Liu, Z. Xu, and Y. Feng, “High Power Single Frequency 1014.8 nm Yb-doped Fiber Amplifier and Frequency Quadrupling to 253.7 nm,” in CLEO: 2014 (OSA, 2014), p. SW3N.5.
冯衍,“Recent progress in high power Raman fiber laser”,2014 中俄激光物理基础及应用光子学研讨会,2014年5月,天津。
K.-K. Liu, R.-C. Zhao, X.-H. Fu, J.-M. Hu, Y. Feng, Z. Xu, and Y.-Z. Wang, “Recent progress of laser cooling for neutral mercury atom,” in SPIE/COS Photonics Asia, Q. Gong, G.-C. Guo, and B. S. Ham, eds. (International Society for Optics and Photonics, 2014), p. 92690T.
Yan Feng,“High power Raman fiber lasers,” The Third China-Russia Bilateral Forum on Materials: Advanced Laser Materials and Laser Techniques, November, 2013, Shanghai.
L. Zhang, S. Cui, J. Hu, L. Chen, and Y. Feng, “Power scaling of Raman fiber amplifier based source for laser guide star,” in Advanced Solid-State Lasers Congress, P. McManamon, . Watson, and O. Steinvall, eds., OSA Technical Digest (online) (Optical Society of America, 2013), paper JTh2A.38.
Yan Feng, “Versatile Fiber-based Guide Star Laser for Astronomy and Space Exploration,” The 1st Beijing International Forum on Lunar and Deep-space Exploration 2013, September, 2013, Beijing.
L. Zhang, S. Cui, C. Liu, J. Zhou, and Y. Feng, “170 W single-frequency single-mode polarization maintaining fiber amplifier,” in CLEO PR: 2013, paper MA1-2.
Lei Zhang, Jianhua Wang, Jinmeng Hu, Yan Feng, “基于光纤的钠导星激光器“, 第二十届全国激光学术会议, 成都, 2012年10月。
Yan Feng, Lei Zhang, Jianhua Wang, Jinmeng Hu, “Single frequency Raman fiber amplifier and mode-locked Raman fiber laser,” the 8th Asia-Pacific Laser Symposium, Huangshan, China (2012).
Lei Zhang, Jun Wang, Jianhua Wang, Jinmeng Hu, Jintai Fan,Yan Feng, “1180 nm Raman mode locked fiber laser using graphene”, the 8th Asia-Pacific Laser Symposium, Huangshan, China (2012).
Yan Feng, “Recent developments in Raman fiber laser,” 国际高功率光纤激光技术研究及应用研讨会, 成都(2012年4月12日)。(邀请报告)
Jean-Francois Bisson, Yan Feng, Akira Shirakawa, Hitoki Yoneda, Jianren Lu, Hideki Yagi, Takagimi Yanagitani, and Ken-ichi Ueda, Laser damage threshold of ceramic YAG, Jpn.J.Appl.Phys., Vol.42, L1025-L1027 (2003).
Yan Feng, Yong Bi, Hongbo Zhang, Aiyun Yao, Jiasheng Wang, Zuyan Xu, 20W external frequency doubled all solid state Nd:YAG green laser (20W 腔外倍频全固态Nd:YAG绿光激光器), Journal of Optics, Vol. 23, 469-471 (2003).
Yan Feng, Yong Bi, Hongbo Zhang, Aiyun Yao, Guilin Wang, Xuechun Lin, Jiasheng Wang, Zuyan Xu, 3W all solid state 355nm Nd:YAG laser (3W全固态355nm Nd:YAG激光器), Chinese Journal of Laser, Vol. A29, No. 8, 766 (2002).
Y. Feng, F. Song, L. J. Zhao, C. B. Zhang, H. C. Guo, G. Y. Zhang, Upconversion in Nd:YVO4 pumped by LD and its effects on laser operation(LD激发下Nd:YVO4中的上转换及其对激光运转的影响), ACTA PHYSICA SINICA , Vol.50(2), 335 (2001).
Y. Feng, X. B. Chen, G. Y. Zhang, F. Song, K. Li, and M. X. Li, Upconversion Luminescence of Yb3+,Tm3+:ZBLAN glass pumped by a 798nm laser diode(798nm 半导体激光激发下ZBLAN:Yb3+,Tm3+玻璃的上转换发光), Journal of Optics, Vol. 19(4), 552 (1999).
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