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个人简介

教育背景 1982.09-1986.07 南开大学物理系 学士 1986.08-1989.07 南开大学现代光学研究所 硕士 1990.01-1992.07 中国科学院物理研究所 博士 工作履历 2001. 03 – 今 清华大学精仪系,教授/研究员 2000. 08 – 2001. 03 美国阿肯色大学物理系,博士后 1999. 08 – 2000. 07 美国贝尔实验室(Bell Labs, Murray Hill, USA),博士后 1998. 09 – 1999. 08 英国Exeter大学物理系,博士后 1997. 07 – 1998. 08 中国科学院物理研究所,副研究员 1992. 08 – 1993. 12 中国科学院物理研究所,助理研究员

研究领域

光纤光子学;锁模光纤激光器;光纤传感;光学频率梳及其应用;微纳结构拉曼光谱/荧光光谱增强及应用

近期论文

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Q.-F. Yang, Q.-X. Ji, L. Wu, B. Shen, H. Wang, C. Bao, Z. Yuan, and K. Vahala, “Dispersive-wave induced noise limits in miniature soliton microwave sources”. Nature Communications 12, 1442 (2021) C. Bao, B. Shen, M-G. Suh, H. Wang, K. Şafak, A. Dai, A. Matsko, F. Kartner, and K. Vahala, “Oscillatory motion of a counterpropagating Kerr soliton dimer”, Physical Review A, 103, L011501 (2021) C. Bao, M-G. Suh, K. Şafak, A. Dai, B. Shen, H. Wang, L. Wu, Z. Yuan, Q-F. Yang, A. Matsko, F. Kartner, and K. Vahala, “Quantum diffusion of microcavity solitons”, Nature Physics, 17, 462-466 (2021) Yao, Shunyu, Kewei Liu, and Changxi Yang. "Pure quartic solitons in dispersion-engineered aluminum nitride micro-cavities." Optics Express 29.6 (2021): 8312-8322 Kangjun Zhao, Chenxin Gao, Xiaosheng Xiao, and Changxi Yang, "Real-time collision dynamics of vector solitons in a fiber laser," Photonics Research 9, 289-298 (2021) Kangjun Zhao, Chenxin Gao, Xiaosheng Xiao, and Changxi Yang, "Vector quartic solitons in birefringent fibers," Optics Letters 46, 761-764 (2021) Yihang Ding, Xiaosheng Xiao, Kewei Liu, Shuzheng Fan, Xiaoguang Zhang, Changxi Yang,“Spatiotemporal Mode-Locking in Lasers with Large Modal Dispersion”,Physical review letters, no. 9 (2021): 093901 Kewei Liu, Xiaosheng Xiao, and Changxi Yang, "Observation of transition between multimode Q-switching and spatiotemporal mode locking," Photon. Res. 9, 530-534 (2021) Kewei Liu, Shunyu Yao, and Changxi Yang, "Raman pure quartic solitons in Kerr microresonators," Opt. Lett. 46, 993-996 (2021) L. Wu, H. Wang, Q. Yang, Q. Ji, B. Shen, C. Bao, M. Gao, and K. Vahala, “Greater than one billion Q factor for on-chip microresonators,” Optics Letters 45, 5129-5131 (2020) C. Bao†, Z. Yuan†, H.Wang, L.Wu, B. Shen, K. Sung, S. Leifer, Q. Lin, andK. Vahala, “Interleaved differencefrequency-generation for microcomb spectral densification in the mid-infrared”, Optica, 7, 309-315 (2020) Kangjun Zhao, Xiaosheng Xiao, and Changxi Yang, “Real-time collision dynamics of vector solitons in a fiber laser,” CLEO 2020, Paper JW2E.8, 11-15, May2020, San Jose, California, USA . Kewei Liu, Xiaosheng Xiao, Xiaoguang Zhang, Changxi Yang, ''Multimode Q-switching and Spatiotemporal Mode-locking in Multimode Fiber Lasers'', in Conference on Lasers and Electro-Optics, OSA Technical Digest (Optical Society of America, 2020), paper 3360129. Shunyu Yao, Chengying Bao, Pan Wang, and Changxi Yang, “Generation of stable and breathing flat-top solitons via Raman assisted four wave mixing in microresonators,” Phys. Rev. A 101, 023833 (2020). Kangjun Zhao, Chenxin Gao, Xiaosheng Xiao, and Changxi Yang, "Buildup dynamics of asynchronous vector solitons in a polarization-multiplexed dual-comb fiber laser," Optics Letters 45, 4040-4043 (2020) Kangjun Zhao, Yan Li, Xiaosheng Xiao, and Changxi Yang, “Nonlinear multimode interference-based dual-color mode-locked fiber laser,” Optics Letters 45(7), 1655-1658 (2020). Yan Li, Kangjun Zhao, Bo Cao, Xiaosheng Xiao, and Changxi Yang, “A carbon nanotube-synchronized dual-color fiber laser for coherent anti-Stokes Raman scattering microscopy,” Optics Letters 45, 3329-3332 (2020) Shunyu Yao, Chengying Bao, and Changxi Yang, “Raman Induced Visible Stable Platicons and Breather Platicons in Microresonator,” CLEO: Applications and Technology, JW2A.43(2019). Yihang Ding, Xiaosheng Xiao, and Changxi Yang, “Spatiotemporal Dynamics of Dual-Soliton States in a Multimode Fiber Laser,” CLEO: Applications and Technology, JW2A.87(2019). Kangjun Zhao, Pan Wang, Yihang Ding, Shunyu Yao, Lili Gui, Xiaosheng Xiao, and Changxi Yang, “High-energy dissipative soliton resonance and rectangular noise-like pulse in a figure-9 Tm fiber laser,” Applied Physics Express 12(1), 012002 (2019). Yan Li, Xiaosheng Xiao, Jingjing Guo, Kangjun Zhao, Shunyu Yao, Lili Gui, and Changxi Yang, “Multimodal coherent anti-Stokes Raman scattering microscopy with a supercontinuum all-fiber laser,” IEEE Photonics Journal 11(2), 1-8 (2019). Jingjing Guo, Kangjun Zhao, Bingqian Zhou, Wen Ning, Kaili Jiang, Changxi Yang, Lingjie Kong, and Qionghai Dai, “Wearable and skin-mountable fiber-optic strain sensors interrogated by a free-running, dual-comb fiber laser,” Advanced Optical Materials 7(12), 1900086 (2019). Kangjun Zhao, Hongxiang Jia, Pan Wang, Jingjing Guo, Xiaosheng Xiao, and Changxi Yang, “Free-running dual-comb fiber laser mode-locked by nonlinear multimode interference,” Optics Letters 44(17), 4323-4326 (2019) Pan Wang, Shunyu Yao, Philippe Grelu, Xiaosheng Xiao, “Pattern formation in 2-μm Tm Mamyshev oscillators associated with the dissipative Faraday instability,” Photonics Research 7 (11),1287-1295(2019). Yihang Ding, Xiaosheng Xiao, Pan Wang, and Changxi Yang, “Multiple-soliton in spatiotemporal mode-locked multimode fiber lasers,” Optics Express 27 (8), 11435-11446(2019). Jingjing Guo,Yihang Ding, Xiaosheng Xiao, Lingjie Kong and Changxi Yang, “Multiplexed static FBG strain sensors by dual-comb spectroscopy with a free running fiber laser,” CLEO: Applications and Technology, JTu2A.89(2018). Xiaosheng Xiao, Yihang Ding, and Changxi Yang, Spatiotemporal Dynamics in Spatiotemporal mode-locked Multimode Fiber Laser, Asia Communications and Photonics Conference, 2018. Pan Wang, Kangjun Zhao, and Changxi Yang, “2-μm soliton molecules sources in a monolayer MoS2 mode-locked fiber laser,” Mid-Infrared Coherent Sources, JT5A. 16 (2018). Lili Gui, Pan Wang, Yihang Ding, Kangjun Zhao, Chengying Bao, Xiaosheng Xiao, and Changxi Yang, “Soliton molecules and multisoliton states in ultrafast fibre lasers: intrinsic complexes in dissipative systems,” Applied Sciences 8(2), 201 (2018). Pan Wang, Kangjun Zhao, Lili Gui, Xiaosheng Xiao, and Changxi Yang, “Self-organized structures of soliton molecules in 2-μm fiber laser based on MoS2 saturable absorber,” IEEE Photonics Technology Letters 30(13), 1210-1213 (2018). Jingjing Guo, Yihang Ding, Xiaosheng Xiao, Lingjie Kong, and Changxi Yang, “Multiplexed static FBG strain sensors by dual-comb spectroscopy with a free running fiber laser,” Optics Express 26(13), 16147-16154(2018). Huaqiang Qin, Xiaosheng Xiao, Pan Wang, and Changxi Yang, “Observation of soliton molecules in a spatiotemporal mode-locked multimode fiber laser,” Optics Letters 43(9), 1982-1985(2018) Yan Li, Xiaosheng Xiao, and Changxi Yang, “Spectral-compressed fiber laser source for broadband-CARS microspectroscopy, 16th International Conference on Optical Communications and Networks,” IEEE Xplore, 2017. Yan Li, Xiaosheng Xiao, Lingjie Kong and Changxi Yang, “Fiber supercontinuum source for broadband-CARS microscopy based on an all-normal-dispersion mode-locked laser,” CLEO: Applications and Technology. Optical Society of America, ATh1A.4(2017). Huaqiang Qin, and Xiaosheng Xiao, “Influence of the nonlinear propagation effect on the optical signal-to-noise ratio of 400G optical fiber communication systems,” Chinese Optics Letters 15(3), 030604(2017). Yan Li, Xiaosheng Xiao, and Changxi Yang C, “Spectrally-compressed fiber laser source for supercontinuum-based broadband-CARS spectroscopy,” IEEE Photonics Technology Letters29(23), 2012-2015(2017). Pan Wang, Dake Hu, Kangjun Zhao, Liying Jiao, Xiaosheng Xiao, and Changxi Yang, “Dissipative rogue waves among noise-like pulses in a Tm fiber laser mode locked by a monolayer MoS2 saturable absorber,” IEEE Journal of Selected Topic in Quantum Electronics 24(3), 1-7 (2017). Pan Wang, Kangjun Zhao, Xiaosheng Xiao, and Changxi Yang, “Pulse dynamics of dual-wavelength dissipative soliton resonances and domain wall solitons in a Tm fiber laser with fiber-based Lyot filter,” Optics Express 25(24), 30708-30719 (2017). Pan Wang, Xiaosheng Xiao, and Changxi Yang, “Quantized pulse separations of phase-locked soliton molecules in a dispersion-managed mode-locked Tm fiber laser at 2 μm,” Optics Letters, 42(1), 29-32(2017). Jingjing Guo, Mengxuan Niu, and Changxi Yang, “Highly flexible and stretchable optical strain sensing for human motion detection”, Optica 4(10), 1285-1288(2017). Rachid Si Fodil, Foued Amrani, Changxi Yang, Abdelhamid Kellou, and Ph. Grelu,” Adjustable high-repetition-rate pulse trains in a passively-mode-locked fiber laser” Phys. Rev. A 94, 013813 (2016). C. Bao, X. Xiao, and C. Yang,” Spectral compression of a dispersion-managed mode-locked Tm:fiber laser at 1.9 u m,” Photon. Tech. Lett. 28, 497-500 (2016). P. Wang, C. Bao, et al., "Generation of wavelength-tunable soliton molecules in a 2-μm ultrafast all-fiber laser based on nonlinear polarization evolution," Optics Letters 41(10), 2254-2257 (2016) Xiao XS, Hua Y. "Influence of seed source on supercontinuum generated by amplified all-normal-dispersion mode-locked Yb-doped fiber laser,"The International Conference on Optical Instruments and Technology(2015). Xiao XS, Hua Y. "Experimental Investigation of Wavelength-Tunable All Normal Dispersion Yb-Doped Mode-Locked Fiber Laser:Compression and Amplification,"Chinese Physics Letters,32(2):24203(2015). Mei J, Xiao X and Yang C. " High resolution and large dynamic range fiber extrinsic Fabry-Perot sensing by multi-extrema-tracing technique,"Applied Optics, 54(12): 3677-3681(2015)( DOI: 10.1364/AO.54.003677). Mei J, Xiao X and Yang C. "Delay compensated FBG demodulation system based on Fourier domain mode-locked lasers,"Photonics Technology Letters, IEEE(2015)(DOI: 10.1109/LPT.2015. 2432055). C. Bao, L. Zhang, L. C. Kimerling, J. Michel, and C. Yang, "Soliton breathing induced by Stimulated Raman scattering and self-steepening in octave-spanning Kerr frequency comb generation, " Opt. Express (Accepted) (2015). Mei J, Xiao X and Yang C. "1 μm Wavelength Swept Fiber Laser Based on Dispersion-tuning Technique,"Chinese Optics Letters, 13(9) (Accepted) (2015). 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)(IF: 7.394). Jingjing Guo, Changxi Yang, "Highly stabilized phase-shifted fiber Bragg grating sensing system for ultrasonic detection", IEEE Photonic Technology Letters 27(8), 848-851(2015). J. Guo, C.Yang, “Non-Contact Fiber Vibration Sensor Based on Intracavity Modulation of an Extrinsic Fabry–Perot Interferometer”, IEEE Sensors Journal 27(8), 7229-7233(2015). C. Bao and C. Yang, “Stretched cavity soliton in dispersion managed Kerr resonators”, Phys. Rev. A 92, 023802 (2015). C. Bao, L. Zhang, L. C. Kimerling, J. Michel, and C. Yang, “Soliton breathing induced by Stimulated Raman scattering and self-steepening in octave-spanning Kerr frequency comb generation”, Opt. Express 23, 18665-18670 (2015). C. Bao and C. Yang, “Carrier-envelope phase dynamics of cavity solitons: Scaling law and soliton stability”, Phys. Rev. A 92, 053831 (2015). C. Bao, and C. Yang,” Harmonic mode-locking in a Tm-doped fiber laser: Characterization of its timing jitter and ultralong starting dynamics,” Opt. Commun. 356, 463-467 (2015). C. Bao, W. Chang, C. Yang, N. Akhmediev, and S. T. Cundiff,” Observation of Coexisting Dissipative Solitons in a Modelocked Fiber Laser,” Phys. Rev. Lett. 115, 253903 (2015). T. Liu, L. Zhou, Z. Zhang, X. Xiao, M. Zhou, and Changxi Yang, "Combined taper-and-cylinder optcial fiber probes for highly senstivie surface-enhanced Raman scattering," Applied Physics B; Lasers and Optics, p 1-5, (2014). T. Liu, Y. Zhao, Z. Zhang, P. Li, R. Yang, C. Yang, L. Zhou, "A fiber optic biosensor for specfic identification of dead Escherichia coli O157:H7, " Sensors and Actuators, B: Chemical, V. 196, p 161-167 (2014) Zhang Zhonghuan, Hua Fei, Liu Ting, Zhao Yong, Li Jun, Yang Ruifu, Yang Changxi, Zhou Lei. A double-taper optical fiber-based radiation wave other than evanescent wave in all-fiber immunofluorescence biosensor for quantitative detection of Escherichia coli O157:H7. Plos One, v9, n5, p e95429 (2014).

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