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上海大学通信与信息工程学院导师教师师资介绍简介-张亮教授张亮教授

本站小编 Free考研考试/2021-01-23


张亮 教授,博导

办公室:
上海大学宝山校区东区通信实验楼B315室

通信地址:
上海市上大路99号上海大学通信与信息工程学院

邮政编码:
200444

电话:


电子邮件:
liangzhang@shu.edu.cn

English Version
个人主页:
https://scie.shu.edu.cn/Prof/zhangliang.htm,
http://my.shu.edu.cn/Index.aspx?TID=5608
ResearchGate:https://www.researchgate.net/profile/Liang_Zhang28


【个人简介】
主要从事光纤光子学、激光技术和光纤传感方面的研究,在国内外学术期刊共发表论文40多篇,其中第一及通讯作者论文15篇,包括PRL, OL, OE, JLT, JSTQE 等物理与光电子学领域国际顶级期刊。研究成果曾被《Science》杂志网站以“Pushing Light Beyond Light Speed”为标题进行报道,相关成果亦入选“中国光学年度重要成果奖”。在CLEO、OFC、OFS、Photonics West等光电子学领域的国际学术会议上发表论文13篇并多次做口头和邀请报告,曾荣获Asia Communications and Photonics Conference(ACP)国际会议“最佳学生论文一等奖”。

2020/04 至今, 上海大学通信与信息工程学院,教授
2019/06—2020/03, 上海大学通信与信息工程学院,讲师、副教授
2016/06—2019/05, 加拿大渥太华大学,博士后,合作导师:Prof.Xiaoyi Bao
2009/09—2016/03, 上海交通大学,物理与天文学院,博士,导师:詹黎 教授
2013/09—2014/05, 瑞士洛桑联邦理工大学,博士联培,导师:Prof.Luc Thevenaz
2005/09—2009/06, 上海交通大学,物理与天文学院,学士

【研究领域】
(1) 非线性光纤光学 |Nonlinear fiber optics
l 基于受激布里渊散射效应的快慢光技术 |Brillouin slow and fast light
l 快慢光技术及其全光信号处理|Slow and fast light for all-optical signal processing
(2) 先进光纤激光技术 |Advanced fiber laser technology
l 窄线宽光纤激光器|Narrow linewidth fiber laser
l 多波长光纤激光器| Multi-wavelength fiber laser
l 随机光纤激光器|Random fiber laser based on randomly distributed feedback
(3) 光纤传感及应用 |Fiber sensing and its application
l 基于布里渊/瑞利散射的分布式光纤传感|Distributed fiber sensing based on Brillouin/Rayleigh scattering
l 光纤激光传感及超声波探测|Fiber laser sensor for ultrasound wave detection

【科研项目】
(1) 自然科学基金委青年项目(No.**),“光纤中基于布里渊随机激光振荡的光速调控的研究”,2020.01-2022.12,在研,主持;
(2) 加拿大自然科学与工程研究委员会(NSERC) Discovery Grant Program (06071/FGPIN/2015), “Applications of nonlinear fiber optics”, 2015.01-2019.12,已结题,参加;
(3) 加拿大自然科学与工程研究委员会(NSERC) Engage Grants, “Broadband random laser for nondeterministic high-speed random number generation”, 2017.09-2018.02,已结题,参加;
(4) 加拿大自然科学与工程研究委员会(NSERC), Research Tools and Instruments(RTI) Grants, “Time delay signature suppressed broadband chaotic laser for high-speed all-optical true random number generator”, 2017.01-2017.12,已结题,参加;
(5) 国家自然科学基金面上项目,**,“基于光纤快慢光的时间隐身的研究”,2013.01-2016.12,已结题,参加;
(6) 国家自然科学基金面上项目,**,“基于光纤布里渊激光振荡器的超光速传输及其应用探索”,2012.01-2015.12,已结题,参加。

【本科生教学】
《光纤传感与物联网》

【研究生培养】
2019级,肖哲澜、裘增欢
欢迎对光电子技术、激光技术、光纤通信、光纤传感等光电子学领域的基础研究与工程应用感兴趣的同学报考硕士/博士研究生。
联系方式:liangzhang@shu.edu.cn

【学术兼职】
(1) 美国光学学会(OSA)旗下Optica、Optics Letters、Optics Express、Applied Optics、Chinese Optics Letters学术期刊审稿人;
(2) 国际电气电子工程师学会(IEEE)旗下Journal of selected topics in Quantum Electronics、Journal of Lightwave Technology、Photonics Technology Letters、Photonics Journal、Access期刊审稿人;
(3) 美国物理协会(AIP)旗下Journal of Applied Physics期刊审稿人;
(4) 国际光学工程学会(SPIE)旗下 Optical Engineering期刊审稿人;
(5) 爱思唯尔(ELSEVIER)旗下Optics Communication, Optics & Laser Technology, Optical Fiber Technology期刊审稿人。

【学术成果】
1.期刊论文(第一及通讯作者)
(1) L. Zhang, L. Zhan, et al., “Superluminal propagation at negative group velocity in optical fibers based on Brillouin lasing oscillation,” Phy. Rev. Lett., 107(9), 093903 (2011).
(2) L. Zhang*, L. Chen, and X. Bao, "Unveiling delay-time-resolved phase noise statistics of narrow-linewidth laser via coherent optical time domain reflectometry," Opt. Express 28, 6719-6733 (2020).
(3) L. Zhang*, P. Lu, Z. Zhou, Y. Wang, S. Mihailov, L. Chen, and X. Bao, "High-efficiency random fiber laser based on strong random fiber grating for MHz ultrasonic sensing," IEEE Sensors Journal, 1-1 (2020).
(4) Xu Y†, L Zhang† (co-first author), Lu, Ping, Mihailov, Steven et al., Time-delay signature concealed broadband gain-coupled chaotic laser with fiber random grating induced distributed feedback. Optics & Laser Technology, 109: p. 654-658 (2019).
(5) L. Zhang*, Y. Xu, et al., "Multiwavelength Coherent Brillouin Random Fiber Laser with Ultrahigh Optical Signal-to-Noise Ratio," IEEE J. Sel. Top. Quantum Electron. 24(3), ** (2018).
(6) L. Zhang*, Y. Xu, et al., “Multi-wavelength Brillouin random fiber laser via distributed feedback from a random fiber grating”, J. Lightwave Technol, 36(11), 2122 – 2128 (2018).
(7) L. Zhang*, Y. Wang, Y. Xu, D. Zhou, L. Chen , and X. Bao, “Linearly polarized low-noise multi-wavelength comb via Brillouin random lasing oscillation in optical fiber”, IEEE Photon. Technol. Lett 30(11), 1005 – 1008 (2018).
(8) L. Zhang and L. Zhan, "Compact self-advance fast-light optical fiber generator via Brillouin lasing oscillation. Opt. Commun.," 420, 179-182 (2018).
(9) L. Zhang and L. Zhan, "Cascaded superluminal propagation via Brillouin lasing resonance in optical fibers (in Chinese), Chinese Science Bulletin, 63(1), 61-67 (2018). (Spotlighted as Cover-featured Article, “封面论文”)
(10) L. Zhang*, Y. Xu, et al., "Linearly polarized low-noise Brillouin random fiber laser," Opt. Lett. 42, 739-742 (2017).
(11) L. Zhang*, C. Wang, et al., "High-efficiency Brillouin random fiber laser using all-polarization maintaining ring cavity," Opt. Express 25, 11306 (2017).
(12) S. Gao, L. Zhang(co-first author), et al., "Tapered fiber based Brillouin random fiber laser and its application for linewidth measurement," Opt. Express 24, 28353-28360 (2016).
(13) L. Zhang, L. Zhan, et al., “Superluminal propagation through 500 m optical fiber via stimulated Brillouin scattering”, Opt. Lett.,40(19), 4404-4407 (2015).
(14) L. Zhang, L. Zhan, et al., “Large-region tunable optical bistability in a saturable-absorber-based single-frequency Brillouin fiber laser,” J. Opt. Soc. Am. B, 32(6), 1113-1119 (2015).
(15) L. Zhang, L. Zhan, et al., “Enhanced negative group velocity propagation in a highly nonlinear fiber cavity via lased stimulated Brillouin scattering,” Opt. Eng., 53(10), 102702 (2014).

2.邀请报告
(1) L. Zhang, "Coherent Brillouin random fiber laser and its applications," in the 18th International Conference on Optical Communications and Networks (ICOCN2019), Huangshan, China, 2-5 August, 2019 (Invited).
(2) L. Zhang, "High-efficiency Random Fiber Laser Sensor for Ultrasonic Wave Detection," in the 42nd PhotonIcs & Electromagnetics Research Symposium (PIERS 2019), Xiamen, China, 17-20 December, 2019 (Invited).

3.会议论文(第一及通讯作者)
(1) L. Zhang*, Y. Wang, Y. Xu, L. Chen , and X. Bao, "Linearly Polarized Multi-wavelength Comb via Rayleigh Scattering induced Brillouin Random Lasing Resonance," in Optical Fiber Communication conference(OFC) 2018, Tu2J.2, Oral presentation.
(2) L. Zhang*, Y. Xu, L. Gu, S. Mihailov, P. Lu, L. Chen and X. Bao, " Sub-MHz Ultrasonic sensor using fiber laser based on random fiber grating," in 26th international conference on Optical Fibre Sensors, OFS-26 , FA4, Oral presentation.
(3) L. Zhang*, Y. Wang, et al., "Coherent Brillouin Random Fiber Laser for Application in Phase-sensitive Optical Time Domain Reflectometry," in CLEO 2018, SW3L.3, Oral presentation.
(4) L. Zhang*, Y. Xu, S. Gao, B. Saxena, L. Chen, and X. Bao, "Multi-wavelength Coherent Brillouin Random Fiber Laser with High Optical Signal-to-Noise Ratio," in CLEO 2017, SM2L.6, Oral presentation.
(5) L. Zhang, L. Zhan, M. Qin, J. Liu, “Long-distance superluminal propagation using a single-longitudinal-mode long-cavity Brillouin fiber laser,” CLEO 2015, SW4L. 4, Oral presentation.
(6) L. Zhang*, M. Soto, L. Thévenaz, “Minimizing distortion and enlarging group delay in Brillouin slow light systems by gain profile optimization,” Asia Communication and Photonics Conference (ACP), 2014, Oral presentation. (First prize of Best Student Paper Award, 最佳学生论文一等奖)



 

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