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丛龙庆
副教授
conglq@sustech.edu.cn

个人简介

丛龙庆,55402com永利副教授,入选国家人才计划青年项目。2011年和2014年于天津大学获得工学学士和硕士学位,2017年于新加坡南洋理工大学获得博士学位。自2017年至2019年,在南洋理工大学从事博士后研究员工作;2019年至2020年在宾夕法尼亚大学从事博士后工作;2020年至2021年在上海科技大学担任助理教授、研究员工作。于2021年3月加入55402com永利,担任电子与电气工程系副教授。

 丛龙庆副教授目前已在Nature Communications等期刊发表论文50余篇,总引用超过5800次,h-index为37,4篇入选ESI高被引论文,连续入选全球前2%顶尖科学家榜单。担任Science Advances, National Science Review, Advanced Materials, Light: Science & Applications等知名期刊的审稿人;担任Science合作期刊Ultrafast Science青年编委、中国激光杂志社青年编委,全球光电大会(OGC2021/2022/2023)、全球光子大会(PGC2023)、信息光学和光子学国际会议(CIOP2023)等会议分会主席,IEEE资深会员;博士学位论文获得新加坡材料研究学会的年度唯一最佳博士学位论文金奖;深圳市青年五四奖章获得者。主持国家自然科学基金面上项目和重点项目。

关于丛龙庆副教授的更多信息,请参考课题组主页https://www.x-mol.com/groups/conglq

 

教育经历

2014.01 – 2017.08,新加坡南洋理工大学,数理学院,博士(光学)

2011.09 – 2014.01,天津大学,精密仪器与光电子工程学院,硕士(光学工程)

2007.09 – 2011.06,天津大学,精密仪器与光电子工程学院,学士(光电子技术科学)

 

工作经历

2021-03至现在, 55402com永利, 工学院电子与电气工程系, 副教授

2020-09至2021-03, 上海科技大学, 信息科学与技术学院, 助理教授、研究员

2019-08至2020-07, 宾夕法尼亚大学, 博士后

2017-04至2019-07, 南洋理工大学, 研究员

 

研究简介

1.太赫兹技术

2.下一代无线通信器件(6G)

3.太赫兹成像、传感

4.超材料、超表面器件、光子晶体

5.超快光谱技术

6. 非线性光学

 

所获荣誉

博士论文获得2018年新加坡材料研究学会(MRSS)年度最佳博士学位论文金奖(每年一位获奖人);

获得2016年度国家优秀自费留学生奖学金;

国家特聘青年专家。

 

代表文章

1. S-T Xu,* H-F Zhang, L. Cong,* Z. Xue, D. Lu, Y-H Wang, X. Hu, L. Liang, Y. Ji, F. Fan,* and S-J Chang, Dispersion-Compensated Terahertz Ultra-Broadband Quarter and Half Wave Plates in a Dielectric-Metal Hybrid Metadevice, Advanced Optical Materials, 2302696 (2024).

2. 丛龙庆*,许桂珍,杂化连续域内束缚态中的环形偶极子,激光与光电子学进展 60, 18 (2023). (Invited Research Article)

3. G. Xu, H. Xing, Z. Xue, D. Lu, J. Fan, J. Fan, P.P. Shum, L. Cong*, Recent Advances and Perspective of Photonic Bound States in the Continuum, Ultrafast Science, 3 (2023).(A Science Partner Journal)

4. H. Xing, G. Xu, D. Lu, J. Fan, Z. Xue, Z. Gao, L. Cong*, Terahertz topological photonic crystals with dual edge states for efficient routing, Opt. Lett., 48, 4 (2023) .

5. J. Fan, Z. Li, Z. Xue, H. Xing, D. Lu, G. Xu, J. Gu, J. Han, L. Cong*, Hybrid bound states in the continuum in terahertz metasurfaces, Opto-Electronic Science, 2, 230006 (2023).

6. H. Xing#, J. Fan#, D. Lu, Z. Gao, P. P. Shum, L. Cong*, Terahertz Metamaterials for Free-Space and on-Chip Applications: From Active Metadevices to Topological Photonic Crystals. Advanced Devices & Instrumentation 2022, 1 (2022). (A Science Partner Journal)

7. W. Shi, J. Gu*, X. Zhang, Q. Xu, J. Han, Q. Yang*, L. Cong*, W. Zhang*, Terahertz bound states in the continuum with incident angle robustness induced by a dual period metagrating. Photon. Res. 10, 810 (2022).

8. X. Zhang, W. Shi, J. Gu*, L. Cong*, X. Chen, K. Wang, Q. Xu, J. Han, W. Zhang*, Terahertz metasurface with multiple BICs/QBICs based on a split ring resonator. Opt. Express 30, 29088 (2022).

9. L. Cong*, J. Han, W. Zhang, R. Singh, “Temporal loss boundary engineered photonic cavity,” Nature Communications 12, 6940 (2021). Highlighted by SUSTech News: https://newshub.sustech.edu.cn/html/202112/41591.html; Featured by 《物理》as cover page.

10. 丛龙庆*, 主动式太赫兹超材料器件综述. 中国激光 48, 1914003 (2021). (Invited Review article)

11. L. Cong*, S. K. Valiyaveedu, J. Shi, X. Zhang, Editorial: Terahertz Radiation: Materials and Applications. Frontiers in Physics 9, (2021). (Issue edited as a Guest Editor)

 

Selected publication before joining SUSTech:

12. L. Cong, R. Singh, “Spatiotemporal Dielectric Metasurfaces for Unidirectional Propagation and Reconfigurable Steering of Terahertz Beams,” Adv. Mater. 32, 2001418 (2020).

13. L. Cong, et al, “Electrically programmable terahertz diatomic metamolecules for chiral optical control,” Research 2019, 1 (2019) (Science Partner Journal).

14. L. Cong, et al, “All-optical active THz metasurfaces for ultrafast polarization switching and dynamic beam splitting,” Light: Science & applications 7, 28 (2018).

15. L. Cong, et al, “Active Phase Transition via Loss Engineering in a Terahertz MEMS Metamaterial,” Adv. Mater. 29(26), 1700733 (2017).

16. L. Cong, et al, “Perovskite as a Platform for Active Flexible Metaphotonic Devices,” ACS Photonics 4, 1595-1601 (2017). Featured as cover article.

17. L. Cong, et al, “Near-Field Inductive Coupling Induced Polarization Control in Metasurfaces,” Adv. Opt. Mater. 4, 848 (2016).

18. L. Cong, et al, “Fano Resonances in Terahertz Metasur-faces: A Figure of Merit Optimization,” Adv. Opt. Mater. 3, 1537 (2015). Citation 148 Highlighted as the top 5 download paper. Link: http://www.materialsviews.com/advanced-optical-materials-top-5-sept-2015/.

19. L. Cong, et al, “A Tunable Dispersion-Free Terahertz Metadevice with Pancharatnam-Berry-Phase-Enabled Modulation and Polarization Control,” Adv. Mater. 27, 6630 (2015).

20. L. Cong, et al, “Experimental demonstration of ultrasensitive sensing with terahertz metamaterial absorbers: A comparison with the metasurfaces,” Appl. Phys. Lett. 106, 031107 (2015). Citation 372, Highlighted as the must-read findings on terahertz devices; Most cited paper of APL from 2015-2019; Top 1% most cited papers in Physics by ESI.

21. L. Cong, et al, “Highly flexible broadband terahertz metamaterial quarter‐wave plate,” Laser & Photonics Reviews 8, 626 (2014). Citation 221, featured as cover article.

22. L. Cong, et al, “A perfect metamaterial polarization rotator,” Appl. Phys. Lett. 103, 171107 (2013). Citation 296, Highlighted as the top 1% most cited papers in Physics by ESI.

 

More papers please refer to: https://scholar.google.com/citations?hl=en&user=OiPJiqcAAAAJ or https://www.researchgate.net/profile/Longqing-Cong

 

招聘信息

Tera-Meta Lab正在招聘博士后、科研助理,招收光学、物理、光电子、材料、通信等相关专业博士生、硕士生、本科实习生,同时欢迎来自国内外大学及科研机构的访问学者和交流学生,有意加入者请将简历发送至:conglq@sustech.edu.cn. 博后申请者还需附上至少两位推荐人姓名和邮箱地址。

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