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    厦门大学电子科学与技术学院导师介绍:罗正钱

    作者:聚创厦大考研网-小黑老师 点击量: 2090 发布时间: 2018-09-07 16:06 【微信号:13306030226】



      姓名: 罗正钱 Zhengqian Luo
      职称、职位:教授、博导 Professor of Electronic Engineering
      邮箱:zqluo@xmu.edu.cn
      电话:0592-2580141
      办公地点:海韵园行政楼B-518 Office: B518, Admin Building B
      学历:Degrees
      哈尔滨工业大学理学学士,应用物理学;
      BSc, Applied Physics, Harbin Institute of Technology, 2004
      厦门大学工学博士,通信与信息系统;
      PhD, Communication and Information Systems, Xiamen University, 2009
      新加坡南洋理工大学联合培养博士,光学工程。
      Joint PhD student, EEE, Nanyang Technological University, 2007-2009
      研究方向:Research Interests
      光纤激光技术及应用、片上集成光子器件、非线性光纤光学
      Fiber lasers, On-chip photonics, Nonlinear fiber optics
      主讲课程:Courses
      光纤通信系统
      Optical Fiber Communication Systems
      光纤光学(研究生课)
      Fiber Optics
      光电子器件原理及应用(研究生课)
      Principles and Applications of Optoelectronic Devices
      学术兼职:Professional Activities
      IEEE高级会员(Senior Member), 2015-
      IEEE Senior Member, 2015– present
      福建省光学学会副秘书长, 2017-
      Deputy Secretary-General, The Optical Society of Fujian Province, 2017-present
      中国激光杂志社青年常务编委,2017-
      Young Editor Broad, Chinese Laser Press, 2017-present
      美国光学学会会员,2016-
      Member, The Optical Society of Fujian Province, 2016-present
      成果奖励:Awards
      福建省青年拔尖人才
      Young Top Notch Talents, Fujian Province
      福建省杰出青年基金获得者
      Science Fund for Distinguished Young Scientists, Fujian Province
      福建省新世纪优秀人才
      New Century Excellent Talents in Fujian Province
      厦门大学教职工奖(2012&2016)
      Faculty Awards of Xiamen University (2012&2016)
      课题项目:Projects
      全光纤可见光超快涡旋激光产生及光场动态调控研究,国家自然科学基金重大研究计划(培育),2018/01-2020/12,主持
      All-fiber visible-light ultrafast vortex laser generation with light-field dynamic manipulation, National Natural Science Foundation of China, 2018.1-2020.12 (Project Leader)
      拓扑绝缘体及模间拍频锁模新机制用于中红外超快拉曼光纤激光器的研究,国家自然基金面上项目,2015/01-2018/12, 主持
      Topological-insulator saturable absorbers and intermodal-beating mode-locking for ultrafast mid-infrared Raman fiber lasers, National Natural Science Foundation of China, 2015.1-2018.12 (Project Leader)
      基于新型二维材料的紫外超快激光研究,福建省杰出青年科学基金,2017/04-2020/03,主持
      Ultraviolet ultrafast laser based on novel two-dimensional materials, Science Funds for Distinguished Young Scientists of Fujian Province,2017.4-2020.3 (Project Leader)
      2微米波段石墨烯被动调Q掺铥双包层光学激光器的研究,国家自然科学基金面上项目,2012/01-2015/12,主持
      Graphene-based passively Q-switched 2 μm Tm-doped double-clad fiber lasers, National Natural Science Foundation of China, 2012.1-2015.12 (Project Leader)
      3-5 μm可调谐中红外光纤参量振荡器研究,国家自然科学基金青年项目,2012/01-2014/12,主持
      3-5 μm tunable mid-infrared fiber optical parametric oscillators, National Natural Science Foundation of China, 2012.1-2014.12 (Project Leader)
      新型二维材料被动锁模可见光及中红外光纤激光研究,福建省新世纪优秀人才计划项目,2015/06-2018/06,主持
      基于新型二维纳米材料的全光纤紫外超短脉冲激光研究,深圳市科技计划项目,30万,2016/06-2018/06 ,主持
      All-fiber Ultraviolet ultrashort-pulsed laser based on novel two-dimensional materials, Shenzhen Science and Technology Projects, 2016.6-2018.6(Project Leader)
      用于半导体超薄掩膜选择性刻蚀的激光系统,深圳市拉普拉斯能源技术有限公司,33万,2018/03-2018/09, 主持
      代表作:
      [1]Lin H, Song Y, Huang Y, Kita D, Deckoff-Jones S, Wang K, Li L, Li J, Zheng H, Luo Z, Wang H, Novak S, Yadav A, Huang C, Shiue R, Englund D, Gu T, Hewak D, Richardson K, Kong J and Hu J, 2017, Chalcogenide glass-on-graphene photonics, Nature Photonics, 11: 798-805.
      [2]Luo Z, Wu D, Xu B, Xu H, Cai Z, Peng J, Weng J, Xu S, Zhu C, Wang F, Sun Z, and Zhang H, 2016. Two-dimensional material-based saturable absorbers: Towards compact visible-wavelength all-fiber pulsed lasers, Nanoscale, 8: 1066-1072. (JCR 1区, IF=7.394, ESI高被引论文)
      [3] *Luo Z, Zhou M, Weng J, Huang G, Xu H, Ye C, and Cai Z,2010. Graphene-based passively Q-switched dual-wavelength erbium-doped fiber laser, Optics Letters, 35:3709-3711. (ESI高被引论文)
      [4] *Luo Z, Liu C, Huang Y, Wu D, Wu J, Xu H, Cai Z, Lin Z, Sun L, Weng J, 2014. Topological-insulator passively Q-switched double-clad fiber laser at 2 μm wavelength. IEEE Journal of Selected Topics in Quantum Electronics, 20 (5): 0902708. (ESI高被引论文)
      [5] *Luo Z, Huang Y, Zhong M, Li Y, Wu J, Xu B, Xu H, Cai Z, Peng J, Weng J, 2014. 1, 1.5 and 2 μm fiber lasers Q-switched by a broadband few-layer MoS2 saturable absorber. IEEE/OSA Journal of Lightwave Technology, 32 (24):4077- 4084. (ESI高被引论文)
      [6] *Luo Z, Huang Y, Weng J, Cheng H, Lin Z, Xu B, Cai Z, Xu H, 2013. 1.06mm Q-switched ytterbium-dopedfiber laser using few-layer topologicalinsulator Bi2Se3 as a saturable absorber, Optics Express, 21(24): 29516-29522. (ESI高被引论文)
      [7] Huang Y, *Luo Z, Li Y, Zhong M, Xu B, Che K, Xu H, Cai Z, Peng J, Weng J, 2014. Widely-tunable, passively Q-switched erbium-doped fiber laser with few-layer MoS2 saturable absorber, Optics Express, 22(21):25258-25266.
      [8] *Luo Z, Li Y, Zhong M, Huang Y, Wan X, Peng J, Weng J, 2015. Nonlinear optical absorption of few-layer molybdenum diselenide (MoSe2) for passively mode-locked soliton fiber laser [Invited], Photonics Research, 3 (3):A79-A86. (特邀论文)
      [9] Du T, Luo Z*, Yang R, Huang Y, Ruan Q, Cai Z, Xu H, 2017. 1.2-W average-power, 700-W peak-power, 100-ps dissipative soliton resonance in a compact Er: Yb co-doped double-clad fiber laser, Optics Letters, 42(3): 462-465.
      [10] Luo Z, Ruan Q, Zhong M, Cheng Y, Yang R, Xu B, Xu H, Cai Z, 2016. Compact self-Q-switched green upconversion Er:ZBLAN all-fiber laser operating at 543.4 nm, Optics Letters, 41:2258-2261.
      [11] Luo Z, Zhong M, Xiong F, Wu D, Huang Y, Li Y, Le L, Xu B, Xu H, Cai Z, 2015. Intermode beating mode-locking technique for O-band mixed-cascaded Raman fiber lasers, Optics Letters, 40 (4):502-505.
      [12] Luo Z, Zhong W, Tang M, Cai Z, Ye C, and Xiao X, 2009. Fiber-optic parametric amplifier and oscillator based on intracavity parametric pump technique, Optics Letters, 34: 214-216.
      [13] Luo Z, Cai Z, Huang J, Ye C, Huang C, Xu H, and Zhong WD, 2008. Stable and spacing-adjustable multiwavelength Raman fiber laser based on mixed-cascaded phosphosilicate fiber Raman linear cavity, Optics Letters,33:1602-1604.
      [14] Huang Y, *Luo Z, Xiong F, Li Y, Zhong M, Cai Z, Xu H, Fu H, 2015. Direct generation of 2 W average-power and 232 nJ picosecond pulses from an ultra-simple Yb-doped double-clad fiber laser, Optics Letters, 40 (6): 1097-1100.
      [15] Jia F, Chen H, Liu P, Huang Y, *Luo Z, 2015. Nanosecond-pulsed, dual-wavelength passively Q-switched c-cut Nd:YVO4 laser using a few-layer Bi2Se3 saturable absorber, IEEE Journal of Selected Topics in Quantum Electronics, 21 (1):1601806.
      [16] Xu H, Wan X, Ruan Q, Yang R, Du T,Chen N, Cai Z, *Luo Z, 2017. Effects of nanomaterial saturable absorption on passively mode-locked fiber lasers in anomalous dispersion regime: simulations and experiments, IEEE Journal of Selected Topics in Quantum Electronics, DOI:10.1109/JSTQE.2017.2697045.
      [17] Luo Z, Zhou M, Wu D, Ye C, Weng J, Dong J, Xu H, Cai Z, and Chen L, 2011. Graphene-induced nonlinear four-wave-mixing and its application to multiwavelength Q-switched rare-earth-doped fiber lasers, IEEE/OSA Journal of Lightwave Technology, 29: 2732-2739.
      [18] Luo Z, Ye C, Fu H, Cheng H, Wang J, and Cai Z, 2012. Raman fiber laser harmonically mode-locked by exploiting the intermodal beating of CW multimode pump source, Optics Express, 20:19905-19911.
      [19] Liu C, Ye C, Luo Z, Cheng H, Wu D, Zheng Y, Liu Z, Qu B, 2013. High-energy passively Q-switched 2 μm Tm3+-doped double-clad fiber laser using graphene-oxide-deposited fiber taper, Optics Express, 21(1): 205-209.
      [20] Li L, Q. J. Ruan, R. H. Yang, L. M. Zhao, and *Luo Z, 2016. Bidirectional operation of 100 fs bound solitons in an ultra-compact mode-locked fiber laser, Optics Express, 24: 21020-21026.
      [21] *Luo Z, Zhou M, Cai Z, Ye C, Weng J, Huang G, and Xu H, 2011. Graphene-assisted multiwavelength erbium-doped fiber ring laser, IEEE Photonics Technology Letters, 23: 501-503.
      [22] Luo Z, Huang Y, Wang J, Cheng H, Cai Z, and Ye C, 2012. Multiwavelength dissipative-soliton generation in Yb-fiber laser using graphene-deposited fiber-taper, IEEE Photonics Technology Letters, 24: 1539-1542.
      [23] Wu D, *Luo Z, Xiong F, Zhang C, Huang Y, Chen S, Cai W, Cai Z, Xu H, 2014. Passive synchronization of 1.06 and 1.53 μm Q-switched fiber laser using a common graphene Q-switcher, IEEE Photonics Technology Letters, 26(14):1474-1477.
      [24] *Luo Z, Zhong W, Cai Z, Ye C, Xu H, Dong X, and Xia L, 2009. Multiwavelength fiber optical parametric oscillator, IEEE Photonics Technology Letters, 21: 1609-1611.
      [25] Ruan Q, *Luo Z, Wan X, Yang R, Wang Z, Xu B, Cai Z, Xu H, 2017. 1.61–1.85 ?m Tunable All-Fiber Raman Soliton Source Using a Phosphor-Doped Fiber Pumped by 1.56 ?m Dissipative Solitons. IEEE Photonics Journal, 9(1):7100807.
      [26] *Luo Z, Zhong M, Ruan Q, Huang Y, Guo C, Xu H, Che K, Xu B, Cai Z,2016. 0.1-1 THz High-Repetition-Rate Femtosecond Pulse Generation from Quasi-CW Dual-Pumped All-Fiber Phase-Locked Kerr Combs, IEEE Photonics Journal, 8: 1501007.
      [27] Wang J, *Luo Z, Cai Z, Zhou M, Ye C, and Xu H, 2011. Theoretical and experimental optimization of O-band multiwavelength mixed-cascaded phosphosilicate Raman fiber lasers, IEEE Photonics Journal, 3: 633-643.
      [28] Sun L, Lin Z, Peng J, *Weng J, Huang Y, *Luo Z, 2014. Preparation of Few-Layer Bismuth Selenide by Liquid-Phase-Exfoliation and Its Optical Absorption Properties, Scientific Reports, 4:4794.
      [29] Luo Z, Wang J, Zhou M, Xu H, Cai Z, Ye C, 2012. Multiwavelength mode-locked erbium-doped fiber laser based on the interaction of graphene and fiber-taper evanescent field, Laser Physics Letters, 9: 229-233.
      [30] Cheng H, *Luo Z, Ye C, Huang Y, Liu C, Cai Z, 2013. Numerical modeling of mid-infrared fiber optical parametric oscillator based on the degenerated FWM of tellurite photonic crystal fiber, Applied Optics, 52: 525-529.


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