林锦添 男 中国科学院上海光机所研究员,博士研究生导师,2021年国家优秀青年科学基金获得者。
电子邮件: jintianlin@siom.ac.cn
通信地址: 上海市嘉定区清河路390号强场激光物理国家重点实验室
邮政编码: 201800
研究领域
研究领域:集成光学(铌酸锂光子芯片)、微纳非线性光学、飞秒激光微纳加工。
光集成芯片是下一代光信息处理、量子信息处理的重要载体之一,能提供更大的工作带宽、更快的处理速度、更小的时延和更低能耗,更好满足摩尔定律失效后人类社会对人工智能、无人驾驶、卫星激光通信、元宇宙等变革性技术的重大需求。其中,薄膜铌酸锂被誉为“光子学之硅”,是极为重要的光集成候选平台之一。本人依托程亚研究员课题组,长期致力于薄膜铌酸锂光集成技术、超快激光微纳加工和微纳非线性光学研究,主要取得以下进展:
合作发展低损耗的薄膜铌酸锂微纳刻蚀技术:(a) 发展飞秒激光烧蚀辅助的聚焦离子束刻蚀工艺,制备了首个品质因子超过105的片上薄膜铌酸锂光学微腔;(b) 合作发展极低损耗、可大面积加工的飞秒激光光刻辅助化学机械刻蚀技术,获得了超高品质因子(~108)的铌酸锂光学微腔、传输损耗低至0.34 dB/m的薄膜铌酸锂光波导、以及低损耗(2.9 dB/m)的米级长度光波导延时线等光集成结构或器件;
- 合作揭示新型的微纳非线性光学相位匹配机制,取得当时片上薄膜铌酸锂微腔二次谐波和三次谐波的最高转换效率;
- 通过对圆对称的薄膜铌酸锂微腔引入弱微扰,灵活操控微腔空间模式分布和色散,相干合成高品质的多边形模式,抑制多余的微腔模式,实现窄线宽单频微激光、双波长激光微波源及微腔光频梳产生。
1. 基于弱微扰微腔的光频梳产生
2.米级长度极低损耗的光波导延时线
在Phys. Rev. Lett.、Adv. Photonics、Laser Photonics Rev.、PhotoniX、Photonics Res.、Phys. Rev. Appl.、Opt. Lett.、Opt. Express、New J. Phys.等期刊发表SCI论文50余篇,H-index 27(据WOS);论文共被引2100余次(据WOS)。其中,3篇第一作者论文入选“ESI高被引论文”;1篇通讯作者论文入选“学术精要数据库高被引论文”。相关论文获英国物理学会出版社“Top Cited Paper Award”、Chinese Optics Letters “2022 Editor-in-Chief Choice Award”和Science China Physics, Mechanics & Astronomy “2017年度优秀论文奖”等荣誉。也发表多篇会议论文,包括1篇CLEO Postdeadline论文。
研究工作获美国科学促进会AAAS EurekAlert、美国Phys.org和英国Physics World等科技媒体的报导。论文多次被Nature、Nat. Photonics、Adv. Mater.等期刊论文重点引用,被综述或专著原图引用20余篇次。
授权发明专利8项(含2项美国专利)。
2021年获“国家优青”项目资助、2019年“饶毓泰基础光学奖”优秀奖和2016年上海市优秀博士学位论文奖等奖励。
招生信息
1)毕业于物理、光电信息科学与工程、电子信息等相关专业。
2)对科学研究有较高的兴趣,有自我实现的追求;学习刻苦、学风扎实。
3)对光集成芯片及技术、微纳非线性光学、超快激光微纳光子学等方向感兴趣。
4)研究生报考要求详见 http://www.siom.cas.cn/rcjy/。
5)有意者请将简历发送至 jintianlin@siom.ac.cn。
招生专业
招生方向
教育背景
工作经历
- 2021-11~现在, 中国科学院上海光机所, 研究员
- 2016-08~2021-11,中国科学院上海光机所, 副研究员
- 2014-07~2016-08,中国科学院上海光机所, 助理研究员
社会兼职
2022-09-01-今,中国科学技术大学, 兼职导师
2022-07-30-今,同济大学 物理科学与工程学院, 兼职教授
专利与奖励
奖励信息
专利成果
出版信息
主要作者论文
Guanghui Zhao#, Jintian Lin#,* Botao Fu, Renhong Gao, Chuntao Li, Ni Yao, Jianglin Guan, Minghui Li, Min Wang, Lingling Qiao, and Ya Cheng*, "Integrated multi-color Raman microlasers with ultra-low pump levels in single high-Q lithium niobate microdisks," Laser Photonics Rev. 2024, 2301328 (Early view) (2024). (DOI: 10.1002/lpor.202301328).
Jianglin Guan, Jintian Lin*, Renhong Gao, Chuntao Li, Guanghui Zhao, Minghui Li, Min Wang, Lingling Qiao, and Ya Cheng*, "Low-threshold Anti-Stokes Raman microlaser on thin-film lithium niobate chip," Materials 17, 1042 (2024)(约稿).
J. Guan, C. Li, R. Gao, H. Zhang, J. Lin*, M. Li, M. Wang, L. Qiao, L. Deng, and Y. Cheng*, "Monolithically integrated narrow-bandwidth disk laser on thin-film lithium niobate," Optics & Laser Technology 168, 109908 (2024).
B. Fu, R. Gao, N. Yao, H. Zhang, C. Li, J. Lin*, M. Wang, L. Qiao, and Y. Cheng*, "Generation of Kerr soliton microcomb in a normally dispersed lithium niobate microdisk resonator by mode trimming," arXiv preprint arXiv:2309,00778 (2023).
Huakang Yu*, Yipeng Lun, Jintian Lin, Yantong Li, Xingzhao Huang, Bodong Liu, Wanling Wu, Chunhua Wang, Ya Cheng, Zhi-yuan Li*, and Jacob B. Khurgin*, "Frequency-Resolved Optical Gating in Transverse Geometry for On-Chip Optical Pulse Diagnostics," Laser Photonics Rev. 17, 2201017 (2023).
B. Fu, R. Gao, J. Lin, N. Yao*, H. Zhang, M. Wang, L. Qiao, W. Fang, and Y. Cheng*, "Modes trimming and clustering in a weakly perturbed high-Q whispering gallery microresonator," Laser Photonics Rev. 17, 2300116 (2023).
Zhihao Zhang#, Shanming Li#, Renhong Gao, Haisu Zhang*, Jintian Lin, Zhiwei Fang, Rongbo Wu, Min Wang, Zhenhua Wang, Yin Hang*, and Ya Cheng*, "Erbium-ytterbium codoped thin-film lithium niobate integrated waveguide amplifier with a 27 dB internal net gain," Opt. Lett. 48, 4344 (2023).
C. Li, J. Guan, J. Lin*, R. Gao, M. Wang, L. Qiao, L. Deng, and Y. Cheng*, "Ultra-high Q lithium niobate microring monolithically fabricated by photolithography assisted chemo-mechanical etching," Opt. Express 31, 31556 (2023).
R. Gao, B. Fu, N. Yao, J. Guan, H. Zhang, J. Lin*, C. Li, M. Wang, L. Qiao, and Y. Cheng*, "Electro-optically tunable low phase-noise microwave synthesizer in an active lithium niobate microdisk," Laser & Photonics Reviews 17, 2200903 (2023);
R. Gao, N. Yao, J. Guan, L. Deng, J. Lin*, M. Wang, L. Qiao, W. Fang, and Y. Cheng*, "Lithium niobate microring with ultra-high Q factor above 108," Chinese Optics Letters 20, 011902 (2022) (封面论文;获2022 Chinese Optics Letters "Editor-in-Chief Choice Award","学术精要高被引论文");
- J. Lin#, S. Farajollahi#, Z. Fang#, N. Yao, R. Gao, J. Guan, L. Deng, T. Lu*, M. Wang, H. Zhang, W. Fang*, L. Qiao, and Y. Cheng*, "Electro-optic tuning of a single-frequency ultranarrow linewidth microdisk laser," Advanced Photonics 4, 036001 (2022)(AP期刊“年度引用双星”原创论文);
- J. Hou#, J. Lin#, J. Zhu, G. Zhao, Y. Chen, F. Zhang, Y. Zheng, X. Chen, Y. Cheng*, L. Ge, and W. Wan*, "Self-induced transparency in a perfectly absorbing chiral second-harmonic generator," PhotoniX 3, 22 (2022);
- B.-Y. Xu#, L.-K. Chen#, J.-T. Lin#, L.-T. Feng#, R. Niu, Z.-Y. Zhou, R.-H. Gao, C.-H. Dong, G.-C. Guo, Q.-H. Gong, Y. Cheng*, Y.-F. Xiao*, and X.-F. Ren*, "Spectrally multiplexed and bright entangled photon pairs in a lithium niobate microresonator," Science China Physics, Mechanics & Astronomy 65, 294262 (2022)(封面论文);
- Youting Liang , Junxia Zhou , Zhaoxiang Liu , Haisu Zhang*, Zhiwei Fang, Yuan Zhou , Difeng Yin , Jintian Lin , Jianping Yu , Rongbo Wu , Min Wang and Ya Cheng*, "A high-gain cladded waveguide amplifier on erbium doped thin-film lithium niobate fabricated using photolithography assisted chemo-mechanical etching," Nanophotonics 11, 1033 (2022);
- R. Gao#, H. Zhang#, F. Bo, W. Fang, Z. Hao, N. Yao, J. Lin*, J. Guan, L. Deng, M. Wang, L. Qiao, and Y. Cheng*, "Broadband highly efficient nonlinear optical processes in on-chip integrated lithium niobate microdisk resonators of Q-factor above 108," New Journal of Physics 23, 123027 (2021);
- R. Gao, J. Guan, N. Yao, L. Deng, J. Lin*, M. Wang, L. Qiao, Z. Wang, Y. Liang, Y. Zhou, and Y. Cheng*, "On-chip ultra-narrow-linewidth single-mode microlaser on lithium niobate on insulator," Optics Letters 46, 3131-3134 (2021);
- J. Zhou, R. Gao, J. Lin*, M. Wang, W. Chu, W. Li, D. Yin, L. Deng, Z. Fang, J. Zhang, R. Wu, and Y. Cheng*, "Electro-Optically Switchable Optical True Delay Lines of Meter-Scale Lengths Fabricated on Lithium Niobate on Insulator Using Photolithography Assisted Chemo-Mechanical Etching," Chinese Physics Letters 37, 084201 (2020) (Express Letter) (获2023 IOP Publishing "Top Cited Paper Award");
- N. Yao#, J. Zhou#, R. Gao, J. Lin*, M. Wang, Y. Cheng*, W. Fang, and L. Tong*, "Efficient light coupling between an ultra-low loss lithium niobate waveguide and an adiabatically tapered single mode optical fiber," Opt. Express 28, 12416 (2020);
- J. Lin, F. Bo*, Y. Cheng*, and J. Xu*, "Advances in on-chip photonic devices based on lithium niobate on insulator," Photonics Research 8, 1910 (2020) (ESI Highly Cited Paper);
- M. Wang#, N. Yao#, R. Wu, Z. Fang, S. Lv, J. Zhang, J. Lin*, W. Fang*, and Y. Cheng*, "Strong nonlinear optics in on-chip coupled lithium niobate microdisk photonic molecules," New J. Phys. 22, 073030 (2020);
- J. Lin#, N. Yao#, Z. Hao, J. Zhang, W. Mao, M. Wang, W. Chu, R. Wu, Z. Fang, L. Qiao, W. Fang*, F. Bo*, and Y. Cheng*, "Broadband Quasi-Phase-Matched Harmonic Generation in an On-Chip Monocrystalline Lithium Niobate Microdisk Resonator," Physical Review Letters 122, 173903 (2019) (ESI Highly Cited Paper);
- R. Wu#, J. Zhang#, N. Yao, W. Fang, L. Qiao, Z. Chai, J. Lin*, and Y. Cheng*, "Lithium niobate micro-disk resonators of quality factors above 10(7)," Optics Letters 43, 4116 (2018);
- M. Wang, Y. Xu, Z. Fang, Y. Liao, P. Wang, W. Chu, L. Qiao, J. Lin*, W. Fang*, Y. Cheng*, "On-chip electro-optic tuning of a lithium niobate microresonator with integrated in-plane microelectrodes," Opt. Express 25, 124 (2017);
- Z. Fang, Y. Xu, M. Wang, L. Qiao, J. Lin*, W. Fang*, and Y. Cheng*, "Monolithic integration of a lithium niobate microresonator with a free-standing waveguide using femtosecond laser assisted ion beam writing," Sci. Rep. 7, 45610 (2017);
- J. Lin, Y. Xu, J. Ni, M. Wang, Z. Fang, L. Qiao, W. Fang*, and Y. Cheng*, "Phase-Matched Second-Harmonic Generation in an On-Chip LiNbO3 Microresonator," Physical Review Applied 6, 014002 (2016);
- J. Lin, Y. Xu, Z. Fang, M. Wang, J. Song, N. Wang, L. Qiao, W. Fang*, and Y. Cheng*, "Fabrication of high-Q lithium niobate microresonators using femtosecond laser micromachining," Scientific Reports 5, 8072 (2015) (2016-2020 ESI Highly Cited Paper);
- J. Lin, Y. Xu, Z. Fang, M. Wang, N. Wang, L. Qiao, W. Fang*, and Y. Cheng*, "Second harmonic generation in a high-Q lithium niobate microresonator fabricated by femtosecond laser micromachining," Science China-Physics Mechanics & Astronomy 58, 114209 (2015) (期刊2017年度优秀论文奖).
- J. Lin, Y. Xu, J. Tang, N. Wang, J. Song, F. He, W. Fang*, and Y. Cheng*, "Fabrication of three-dimensional microdisk resonators in calcium fluoride by femtosecond laser micromachining," Applied Physics A 116, 2019 (2014);
- J. Lin, Y. Xu, J. Song, B. Zeng, F. He, H. Xu, K. Sugioka, W. Fang*, and Y. Cheng*, "Low-threshold whispering-gallery-mode microlasers fabricated in a Nd:glass substrate by three-dimensional femtosecond laser micromachining," Opt. Lett. 38, 1458 (2013);
- J. Lin, S. Yu, Y. Ma, W. Fang*, F. He, L. Qiao, L. Tong, Y. Cheng*, and Z. Xu*, "On-chip three-dimensional high-Q microcavities fabricated by femtosecond laser direct writing," Optics Express 20, 10212 (2012) .
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