林迪

林迪 LINDI 教授

所属学院：信息工程学院

导师类别： 硕导、博导

科研方向：光纤放大器、非线性光纤光学

联系方式： dilin@gdut.edu.cn

博士招生学院：信息工程学院

硕士招生学院：信息工程学院

个人简述：

林迪，广东工业大学“百人计划”特聘教授，近年来围绕着面向激光精密制造、医学成像等应用的高功率光纤激光的多维光场调控开展研究。取得的主要研究成果包括：(1)发明了基于复振幅的高功率光纤谐振腔选模技术；(2)利用偏振时域联合调控光纤放大技术，首次实现平均功率百瓦量级的皮秒径向偏振激光输出；(3)发明了基于大模场少模光纤和弱耦合多芯光纤的时空联合调控光放大技术，产生高功率可配置结构光。主持参与完成英国和欧盟项目7项。近年来，以第一作者在Nature Communications， Photonics Research, Nanophotonics, Optics Letters和 Journal of Lightwave Technology光学权威期刊上发表论文12篇，受邀在本领域重大国际会议(CLEO, SPIE Photonics West, ASSL等)完成学术报告8次，一篇CLEO-US会议截止日论文。研究成果获国际先进光纤激光研讨会（AFL2021）评选的“Fiber Laser in 2021”奖，获2021年度国家优秀自费留学生奖学金，获2021年国家海外引才计划青年人才计划支持。

学科领域：

科学学位：光学工程（0803），信息与通信工程（0810）

专业学位：光学工程（0803）

教育背景：

u 2011.8-2016.7： 英国南安普顿大学光电研究中心，获光电子学博士学位；

u 2007.9-2010.6： 中科院上海光学精密机械研究所，获工学硕士学位；

u 2003.9-2007.7： 南京理工大学，获理学学士学位

工作经历：

u 2022.06 - 至 今： “百人计划”特聘教授，广东工业大学信息工程学院；

u 2015.05-2022.04： 助理研究员/研究员/高级研究员，英国南安普顿大学光电研究中心。

学术兼职：

u OSA, SPIE Member；

u Frontier in Photonics 专题编辑

主要荣誉：

国家海外引才计划青年人才计划、国家自费留学生奖学金、“Fiber Laser in 2021”奖。

主要期刊论文：

1. D. Lin*, Y. Feng, Z. Ren and D. J. Richardson, “The generation of femtosecond optical vortex beams with megawatt peak powers directly from a fiber based Mamyshev oscillator,” Nanophotonics, 11(4), 847 (2022).

2. D. Lin*, J. Carpenter, Y. Feng, Y. Jung, S. U. Alam and D. J. Richardson, “High power, electronically-controlled, source of user-defined vortex and vector light beams based on a few-mode fiber amplifier,” Photonics Res. 9(5), 586 (2021).

3. D. Lin*, J. Carpenter, Y. Feng, S. Jain, Y. Jung, Y. Feng, M. N. Zervas, and D. J. Richardson, “Reconfigurable structured light generation in a multicore fibre amplifier,” Nat. Commun.11(1), 3986 (2020).

4. D. Lin*, N. Baktash, S. U. Alam, and D. J. Richardson, “106W, picosecond Yb-doped fiber MOPA system with a radially polarized output beam,” Opt. Lett. 43(20), 4957 (2018).

5. D. Lin*, N. Baktash, M. Berendt, M. Beresna, P. G. Kazansky, W. A. Clarkson, S. U. Alam, and D. J. Richardson, “Radially polarized nanosecond Yb-doped fiber MOPA system incorporating temporal shaping,” Opt. Lett. 42(9), 1740 (2017).

6. D. Lin* and W. A. Clarkson, “End-pumped Nd:YVO₄ laser with reduced thermal lensing via the use of a ring-shaped pump beam,” Opt. Lett. 42(15), 2910(2017).

7. B. M Zhang, Y. Feng, D. Lin*, J. H. V. Price, S. Alam, J. Nilsson, P. P. Shum, D. N. Payne, and D. J. Richardson, “Demonstration of arbitrary temporal shaping of picosecond pulses in a radially polarized Yb-fiber MOPA with > 10W average power,” Opt. Express 25(13),15402 (2017).

8. D. Lin* and W. A. Clarkson, “Polarization-dependent transverse mode selection in an Yb-doped fiber laser,” Opt. Lett. 40(4), 498 (2015).

9. D. Lin*, J. M. O. Daniel, M. Gecevicius, M. Beresna, P. G. Kazansky, and W. A. Clarkson, “Cladding-pumped ytterbium-doped fiber laser with radially-polarized output,” Opt. Lett. 39(18), 5359 (2014).

10. D. Lin*, J. M. O. Daniel, W. A. Clarkson, “Controlling the handedness of directly excited-Laguerre-Gaussian modes in a solid-state laser,” Opt. Lett. 39(13), 3903 (2014).

11. Q. Fu, N. Hanrahan, L. Xu, S. Lane, D. Lin, Y. Jung, S. Mahajan and D. J. Richardson, “High-power, high-efficiency, all-fiberized-laser-pumped, sub-nanosecond, deep-UV laser at 260nm,” Opt. Express 29(26), 42485 (2021).

12. R. Sidharthan, D. Lin, J. Lim, H. Li, S. Lim, C. Chang, Y. Seng, S. Chua, Y. Jung, D. J. Richardson, and S. Yoo, “Ultra-low NA step-index large mode area Yb-doped fiber with a germanium doped cladding for high power pulse amplification,” Opt. Lett. 45(14), 3828 (2020).

13. T. Allen, M. Berndt, D. Lin, S. Alam, N. Huynh, E. Zhang, D. J. Richardson, and P. Beard, “High pulse energy fiber laser as an excitation source for photoacoustic tomography,” Opt. Express 28(23), 34255(2020)

14. J. He, D. Lin, L. Xu, M. Beresna, M. Zervas, S. Alam, and G. Brambilla, “5.6 kW peak power, nanosecond pulses at 274nm from a frequency quadrupled Yb-doped fiber MOPA,” Opt. Express 26(6), 6554 (2018).

15. J. He, D. Lin, L. Xu, M. Beresna, M. Zervas, S. Alam, and G. Brambilla, “ High peak power tunable source at 550nm from a frequency-doubled Yb-doped fiber MOPA,” IEEE Photonics Technol. Lett. 31(8), 2300 (2019).

 

主要会议论文：

1. D. Lin, Y. Feng, Z. Ren, D. J. Richardson, “Generation of megawatt optical vortex pulses directly from a few-mode fiber based mamyshev oscillator,” CLEO-US:2022, San Jose, 15-20 May 2022, STh4E.7 (邀请报告).

2. D. Lin, J. Carpenter, Y. Feng, S. Jain, Y. Jung, Y. Feng, M. N. Zervas, and D. J. Richardson, “Recent progress on the generation of reconfigurable structured light beams in fiber amplifier,” OIT 2021, Chengdou, 8-10 Apr. 2022, OIT400-59 (邀请报告).

3. D. Lin, J. Carpenter, Y. Feng, S. Jain, Y. Jung, Y. Feng, M. N. Zervas, and D. J. Richardson, “Structured light generation in multicore fiber and few-mode fiber amplifiers and lasers,” CIVIS Workshop on Multimode Photonics, Rome, 22-25 Aug. 2022 (邀请报告).

4. D. Lin, J. Carpenter, Y. Feng, S. Jain, Y. Jung, Y. Feng, M. N. Zervas, and D. J. Richardson, “Reconfigurable structured light generation in a multicore fibre amplifier,” SPIE Photonics West, San Francisco, 6-11 Mar. 2021, 11665-47 (邀请报告).

5. D. Lin, J. Carpenter, Y. Feng, Y. Jung, S. Alam, and D. J. Richardson, “Controllable generation of structured light beams in a few-mode fiber MOPA,” CLEO-US:2020, San Jose, 10-15 May, JTH4B.8 (截止日论文报告PDP).

6. S. Alam, D. Lin, N. Baktash, and D. J. Richardson, “Temporal and spatial manipulations of pulses fiber MOPA outputs for energy efficient manufacturing,” CLEO-PR:2017, 31 Jul. - 4 Aug. 2017, Singapore, Oral 3-1M-4 (邀请报告).

7. W. A. Clarkson, D. Lin, M. Beresna, P. G. Kazansky, and P. C. Shardlow, “High power fiber lasers with radially polarized output beams,” CLEO:2016 San Jose, 5-10 Jun. 2016, SM4Q.1 (邀请报告).

8. W. A. Clarkson, Di Lin, M. Beresna, P. G. Kazansky, and P. C. Shardlow, “Cladding pumped radially polarized fiber lasers,” Advanced Solid State Lasers Conference(ASSL), Adlershof-Berlin, 4-9 Oct. 2015, AW2A.4 (邀请报告).

科研项目：

1. 国家重点研发计划子课题：空芯光纤与其他旗舰的接续测试(2022YFB2903102)，经费：250万，2022-2026，负责。

2. 英国工程和自然科学基金子课题：Laser Technologies for Future Manufacturing – Adaptive beam shaping in multicore amplifier（EP/P012248/1），经费：2万磅，2018-2019，主持。

3. 英国工程和自然科学基金：Energy Resilient Manufacturing: Spatio-Temporal Beam Tailored Fibre Lasers for Energy Resilient Manufacturing（EP/P027644/1），经费：95万磅， 2015-2019，项目负责人。

4. 英国工程和自然科学基金：UV light sources based on solid silica fibres（EP/L01243X/1），经费：42万磅， 2014-2017，参与。

5. 英国工程和自然科学基金：Development and application of fiber-based excitation sources for biomedical photoacoustic imaging（EP/J021970/1），经费：59万磅， 2012-2016，参与。

6. 欧盟第七框架计划：High power adaptable laser beams for materials processing（PF7-313310），经费：571万磅， 2012-2016，参与。

 

我的团队：

隶属于信息工程学院先进光子技术院，团队专注于新一代光纤通信、光纤放大器、光子集成器件等研究。