師資
個人簡介
叢龍慶,,南方科技大學副教授,入選國家人才計劃青年項目,。2011年和2014年于天津大學獲得工學學士和碩士學位,,2017年于新加坡南洋理工大學獲得博士學位。自2017年至2019年,,在南洋理工大學從事博士后研究員工作,;2019年至2020年在賓夕法尼亞大學從事博士后工作,;2020年至2021年在上??萍即髮W擔任助理教授,、研究員工作。于2021年3月加入南方科技大學,,擔任電子與電氣工程系副教授,。
叢龍慶副教授目前已在Nature Communications等期刊發(fā)表論文50余篇,總引用超過5800次,,h-index為37,,4篇入選ESI高被引論文,,連續(xù)入選全球前2%頂尖科學家榜單,。擔任Science Advances, National Science Review, Advanced Materials, Light: Science & Applications等知名期刊的審稿人,;擔任Science合作期刊Ultrafast Science青年編委、中國激光雜志社青年編委,,全球光電大會(OGC2021/2022/2023),、全球光子大會(PGC2023)、信息光學和光子學國際會議(CIOP2023)等會議分會主席,,IEEE資深會員,;博士學位論文獲得新加坡材料研究學會的年度唯一最佳博士學位論文金獎;深圳市青年五四獎章獲得者,。主持國家自然科學基金面上項目和重點項目,。
關于叢龍慶副教授的更多信息,請參考課題組主頁https://www.x-mol.com/groups/conglq
教育經歷
2014.01 – 2017.08,,新加坡南洋理工大學,,數理學院,博士(光學)
2011.09 – 2014.01,,天津大學,,精密儀器與光電子工程學院,碩士(光學工程)
2007.09 – 2011.06,,天津大學,,精密儀器與光電子工程學院,學士(光電子技術科學)
工作經歷
2021-03至現在, 南方科技大學, 工學院電子與電氣工程系, 副教授
2020-09至2021-03, 上??萍即髮W, 信息科學與技術學院, 助理教授,、研究員
2019-08至2020-07, 賓夕法尼亞大學, 博士后
2017-04至2019-07, 南洋理工大學, 研究員
研究簡介
1.太赫茲技術
2.下一代無線通信器件(6G)
3.太赫茲成像、傳感
4.超材料,、超表面器件,、光子晶體
5.超快光譜技術
6. 非線性光學
所獲榮譽
博士論文獲得2018年新加坡材料研究學會(MRSS)年度最佳博士學位論文金獎(每年一位獲獎人);
獲得2016年度國家優(yōu)秀自費留學生獎學金,;
國家特聘青年專家,。
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. 叢龍慶*,許桂珍,,雜化連續(xù)域內束縛態(tài)中的環(huán)形偶極子,,激光與光電子學進展 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. 叢龍慶*, 主動式太赫茲超材料器件綜述. 中國激光 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,,招收光學,、物理、光電子,、材料,、通信等相關專業(yè)博士生、碩士生,、本科實習生,,同時歡迎來自國內外大學及科研機構的訪問學者和交流學生,,有意加入者請將簡歷發(fā)送至:conglq@sustech.edu.cn. 博后申請者還需附上至少兩位推薦人姓名和郵箱地址。
聯(lián)系地址:廣東省深圳市南山區(qū)學苑大道1088號南方科技大學工學院南樓702
聯(lián)系電話:+86 (0755) 88010523