基本情况
职 称:副教授
学 位:博士
毕业学校:中山大学
电子邮件:zhangbin5@mail.sysu.edu.cn
教育背景
2011年6月,中山大学,工学博士
工作履历
2017年3月,中山大学电子与信息工程学院,“百人计划”副教授、博士生导师
学术兼职
研究领域
光学工程、智能光电子信号处理芯片
研究方向
智能光电子信号处理器件与集成芯片,包括:
1、新平台材料的物化性能研究;
2、片上集成器件的设计与制备;
3、智能光电子信号处理器件:克尔光频梳、超快光信号处理、光子信号产生与调控。
主讲课程
本科生:光电子材料、光电器件可靠性分析、大学物理实验、行业认知
研究生:红外光学材料
学术成果
【学术表现】
主要从事“新型高非线性硫系材料与器件的开发以在智能光子信号处理方面的应用”研究,并在此基础上开展了宽带超连续光源、光频梳、宽带滤波器等器件应用。
近年来,围绕“调控材料分子结构提升光信号处理器件性能”这一关键问题,开发了一系列超低损耗、高性能的硫系平台的光信号处理器件,研究成果填补了该领域的研究空白,达到国际领先水平;特别是自2017年加入中山大学后,集中精力开发了硅基硫系片上器件的制备平台,仅用近2年时间开发出目前国际上损耗最低的高非线性薄膜、片上波导&微腔器件,应用用于光信号处理,实现国际首次硫系平台的片上光频梳产生与调控。
发表SCI论文40余篇,申报专利26项,已获授权9项,产业化转让5项。先后承担GJ973课题、国家自然科学基金、科技部重点研发计划子课题、GJ项目等。
【主要论著】
Weihong Shen, Pingyang Zeng, Jiangbing Du*, Bin Zhang*, Ke Xu, Zuyuan He, Zhaohui Li*, Chalcogenide glass photonic integration for improved 2‐micron optical interconnection, Photonics Research, Photonics Research, 2020, 8(9): 09001484.
Jingshun Pan, Bin zhang,* Zhengyong Liu, Jiaxin Zhao, Yuanhua Feng, Lei Wan, Zhaohui Li *, Microbubble Resonators Combined with a Digital Optical Frequency Comb for High-Precision Air-Coupled Ultrasound Detectors[J]. , 2020, :303 Photonics Research 8 (3), 303 (2020).
Hao Ouyanga, Haitao Chena, Yuxiang Tang, Jun Zhang, Chenxi Zhang, Bin Zhang*, Xiang’ai Cheng and Tian Jiang*,All-optical dynamic tuning of local excitonic emission of monolayer MoS2 by integration with Ge2Sb2Te5, Nanophotonics;DOI: 10.1515/nanoph-2019-0366.
Y. Chen, M. Zhang*, Z. Shan, C. Wang, B. Zhang*, J. Xu, R. Wang, J Alloy Compd 2020, 155477.
Z. Chen, L. Wan*, J. Song, J. Pan, Y. Zhu, Z. Yang, W. Liu, J. Li, S. Gao, Y.-S. Lin, B. Zhang*, and Z. Li*, "Optical, mechanical and thermal characterizations of suspended chalcogenide glass microdisk membrane,"Optics Express, 27[11] 15918-25 (2019).
J. Tu, Z. Liu*, S. Gao, Z. Wang, J. Zhang, B. Zhang, J. Li, W. Liu, H. Tam, and Z. Li, "Ring-core fiber with negative curvature structure supporting orbital angular momentum modes," Optics Express, 27[15] 20358-72 (2019)
B. Yu, Y. Chen, J. Pan, B. Zhang, F. Li, L. Wan, X. Guo, J. Li*, and Z. Li*, "Silica-microsphere-cavity-based microwave photonic notch filter with ultra-narrow bandwidth and high peak rejection," Opt Lett 44[6] 1411-14 (2019).
Z. Lin, Z. Chen, B. Zhang, F. Li, J. Li, X. Guo*, and Z. Li*, "Wideband and low-error microwave frequency measurement using degenerate four-wave mixing-based nonlinear interferometer," Opt Lett 44[7] 1848-51 (2019).
H. Ren, Y. Yu, C. Zhai, B. Zhang, A. Yang, K. Tian, X. Feng, Z. Yang*, P. Wang, and B. Luther-Davies, "Chalcogenide glass fibers with a rectangular core for polarized mid-infrared supercontinuum generation," J Non-Cryst Solids, 517 57-60 (2019).
Z. Xu, R. Xu, J. Sha, B. Zhang, Y. Tong, and Y.S. Lin*, "Infrared metamaterial absorber by using chalcogenide glass material with a cyclic ring-disk structure," OSA contimuum 1[2] 573-80 (2018).
J. Tu, B. Zhang*, Z. Liu, X. Zhou, K. Long, Z. Li, C. Lu, and C. Yu, "Chalcogenide-Glass Nested Anti-Resonant Nodeless Fibers in Mid-Infrared Region," Journal of Lightwave Technology, 36[22] 5244-53 (2018).
S. S. Qi, B. Zhang*, C. C. Zhai, Y. C. Li, A. P. Yang, Y. Yu, D. Y. Tang, Z. Y. Yang*, and B. Luther-Davies, "High-resolution chalcogenide fiber bundles for longwave infrared imaging," Opt Express 25 (21),; 26160-26165 (2017).
B. Zhang, Y. Yu, C. C. Zhai, S. S. Qi, Y. W. Wang, A. P. Yang, X. Gai, R. P. Wang, Z. Y. Yang*, and B. Luther-Davies, "High Brightness 2.2-12 mu m Mid-Infrared Supercontinuum Generation in a Nontoxic Chalcogenide Step-Index Fiber," J Am Ceram Soc 99 (8), 2565-2568 (2016).
W. Guo, B. Zhang*, C. C. Zhai, S. S. Qi, Y. Yu, A. P. Yang, L. Li, Z. Y. Yang, R. P. Wang, D. Y. Tang, G. M. Tao, and B. Luther-Davies, "Fabrication and Application of Small Core Chalcogenide Glass Fibers in Nonlinear Optics," J Inorg Mater 31 (2),; 180-184 (2016).
Q. Y. Liu, B. Zhang*, S. S. Qi, Y. C. Li, X. L. Fan, Y. G. Zhao*, W. Zhou, and D. Y. Shen, "Integration of helicity-control and pulse-modulation for vortex laser based on a black phosphorus plate," Opt Express 24 (26),; 30031-30037 (2016).
B. Zhang, C. C. Zhai, S. S. Qi, W. Guo, Z. Y. Yang*, A. P. Yang, X. Gai, Y. Yu, R. P. Wang, D. Y. Tang, G. M. Tao, and B. Luther-Davies, "High-resolution chalcogenide fiber bundles for infrared imaging," Opt Lett 40 (19), 4384-4387 (2015).
B. Zhang, W. Guo, Y. Yu, C. C. Zhai, S. S. Qi, A. P. Yang, L. Li, Z. Y. Yang*, R. P. Wang, D. Y. Tang, G. M. Tao, and B. Luther-Davies, "Low Loss, High NA Chalcogenide Glass Fibers for Broadband Mid-Infrared Supercontinuum Generation," J Am Ceram Soc 98 (5),; 1389-1392 (2015).
Y. Yu*, B. Zhang*, X. Gai, C. C. Zhai, S. S. Qi, W. Guo, Z. Y. Yang, R. P. Wang, D. Y. Choi, S. Madden, and B. Luther-Davies, "1.8-10 mu m mid-infrared supercontinuum generated in a step-index chalcogenide fiber using low peak pump power," Opt Lett 40 (6),; 1081-1084 (2015).【high cited:76】
翟诚诚,张斌*,祁思胜,郭威,杨志勇,杨安平,张鸣杰,杨艳,余懿,王荣平,陶光明,唐定远,Barry Luther-Davies,柔性硫系玻璃光纤传像束的制备及性能研究,光学学报,2015,(08):79-84.
Qiu J.; Yang A*.; Zhang M.; Li L.; Zhang B.; Tang D.; Yang Z., Ga2S3-Sb2S3-CsI chalcohalide glasses for mid-infrared applications, Journal of the American Ceramic Society, 100(11), pp 5107-5112, 2017.
Zhang M.; Yang A.; Peng Y.; Zhang B.; Ren H.; Guo W.; Yang Y.; Zhai C.; Wang Y.; Yang Z*.; Tang D., Dy3+-doped Ga-Sb-S chalcogenide glasses for mid-infrared lasers, Materials Research Bulletin, 70, 55-59, 2015
A. P. Yang, J. H. Qiu, M. J. Zhang, H. Ren, C. C. Zhai, S. S. Qi, B. Zhang, D. Y. Tang, and Z. Y. Yang*, "Mid-infrared luminescence of Dy3+ ions in modified Ga-Sb-S chalcogenide glasses and fibers," Journal of Alloys and Compounds 695, 1237-1242 (2017).
H. D. Song, Y. Liu*, B. Zhang, K. Z. Tian, P. P. Zhu, H. Lu, and Q. Tang, "Study of in vitro RBCs membrane elasticity with AOD scanning optical tweezers," Biomed. Opt. Express 8 (1), 384-394 (2017).
Y. Yang, Z. Y. Yang*, P. Lucas*, Y. W. Wang, Z. J. Yang, A. P. Yang, B. Zhang, and H. Z. Tao, "Composition dependence of physical and optical properties in Ge-As-S chalcogenide glasses," J Non-Cryst Solids 440, 38-42 (2016).
A. P. Yang, M. J. Zhang, L. Li, Y. W. Wang, B. Zhang, Z. Y. Yang*, and D. Y. Tang, "Ga-Sb-S Chalcogenide Glasses for Mid-Infrared Applications," J Am Ceram Soc 99 (1), 12-15 (2016).
M. J. Zhang, A. P. Yang*, Y. F. Peng, B. Zhang, H. Ren, W. Guo, Y. Yang, C. C. Zhai, Y. W. Wang, Z. Y. Yang, and D. Y. Tang, "Dy3+-doped Ga-Sb-S chalcogenide glasses for mid-infrared lasers," Materials Research Bulletin 70, 55-59 (2015).
Y. Yang, B. Zhang, A. P. Yang, Z. Y. Yang, and P. Lucas*, "Structural Origin of Fragility in Ge-As-S Glasses Investigated by Calorimetry and Raman Spectroscopy," Journal of Physical Chemistry B 119 (15), 5096-5101 (2015).
R. P. Wang*, K. L. Yan, M. J. Zhang, X. Shen, S. X. Dai, X. Y. Yang, Z. Y. Yang, A. P. Yang, B. Zhang, and B. Luther-Davies, "Chemical environment of rare earth ions in Ge28.125Ga6.25S65.625 glass-ceramics doped with Dy3+," Appl Phys Lett 107 (16), (2015).
【科研课题】
1、**计划重点基础研究项目(原JG973, 2019-2023):***关键器件(课题负责人)
2、国家自然科学基金面上项目(2020-2023):基于片上硫系微环的高性能光频梳产生与调控(主持)
3、****H863子课题(2019-2020):***机理(主持)
4、科技部“宽带通信与新型网络”重点研发计划(2019-2023):基于新型光纤、新放大高速光传输技术及系统验证(承担中大子课题,任务-新型增益光纤和放大器)
5、科技部“变革性技术关键科学问题”重点研发计划(2019-2024):超大规模**光放大器(项目骨干)
6、广东省重点领域“新一代通信与网络”重大研发计划(2019-2021):光子-无线融合的分布式5G系统关键技术(核心:承担任务-高品质硫化物-氮化硅复合波导器件)
7、广东省珠江人才计划本土创新科研团队(2018-2023):光电信息互联器件与芯片新原理新技术基础研究(核心,承担任务-超高速全光信号处理器件)
8、广东省自然科学基金面上项目(2020-2021):主持
9、广州市基础与应用基础研究专题一般性项目(2020-2022):超宽带高亮度集成化的片上超连续光源产生与调控 (主持)
10、广州市科技计划重点项目(2019-2021):有源控制超高速光场调控关键技术研究(核心:承担任务-高品质硫系相变材料基集成芯片)
11、中山大学“三大”重点培育项目(2018-2020), 超宽带片上光源(主持)
【发明专利】
张斌、曾平羊、李朝晖、夏迪、杨泽林、宋景翠、朱莺,一种片上高品质因子硫系微环谐振腔的制备方法,申请号:201911007085.5,申请日期:2019.10.22。(授权)
张斌、曾平羊、李朝晖、夏迪、杨泽林、宋景翠、朱莺,一种低损耗红外高非线性光波导制备方法,申请号:201911008162 .9,申请日期:2019.10.22。
张斌、杨泽林、李朝晖、曾平羊、夏迪、宋景翠、朱莺,一种通讯波段透明的硫系相变材料及其制备方法,申请号:201911014068.4,申请日期:2019.10.23。
张斌、宋景翠、李朝晖、潘竞顺、朱莺、曾平羊、杨泽林、夏迪,一种批量化高品质因子硫系悬空微盘制备方法,申请号:201911135771.0,申请日期:2019.11.19。
张斌、宋景翠、李朝晖、潘竞顺、曾平羊、杨泽林、夏迪、陈钰杰、余思远,一种基于硫化物-氮化硅混合波导及其制备方法,申请号:201911137150.6,申请日期:2019.11.19
张斌、吴家越、李朝晖、杨泽林、曾平羊、张涛、张鸣杰,一种高品质稀土掺杂的硫系薄膜的制备方法,申请号:202010019527.4,申请日期:2020.01.08。
张斌、宋景翠、李朝晖、潘竞顺、曾平羊、杨泽林、夏迪,一种硫化物-氮化硅悬空波导及其制备方法,申请号:202010135754.3,申请日期:2020.03.02。
张斌、杨泽林、李朝晖、曾平羊、夏迪、吴家越、孙耀东、宋景翠、朱莺,一种可用于多谱段主动光学调控的硫系相变薄膜及其制备方法,申请号:202010164514.6,申请日期:2020.03.11
张斌、孙耀东、李朝晖、曾平羊、夏迪、杨泽林、宋景翠、朱莺,一种应用于通讯波段的高效三维硫化物端面耦合器及其制备方法,申请号:202010219600.2,申请日期:2020.03.25。
【学术会议报告】
奖励与荣誉