beat·365(中国)-唯一官方网站

liushf35 — Fri, 20 Dec 2024 09:25:53 +0000

职称：副教授（博士生导师）

学位：博士

毕业学校：beat365中国唯一官方网站

电子邮件：liushf35@mail.sysu.edu.cn

主要经历:

工作经历：

2024.11至今，beat365中国唯一官方网站，beat365中国唯一官方网站，副教授、博士生导师

2022.10-2024.10，beat365中国唯一官方网站，beat365中国唯一官方网站，博士后

教育经历：

2018.09-2022.06，beat365中国唯一官方网站，光学，博士

2015.09-2018.06，beat365中国唯一官方网站，光学工程，硕士

2011.09-2015.06，江南大学，光信息科学与技术，本科

学科方向:

所在学科：光学

研究方向：微纳光子学、半导体量子光学、固态腔量子电动力学

具体研究内容包括：

【1】高性能微纳量子光源与新型光量子态的制备；

【2】低温微区量子光学测量与量子态的光学操控；

【3】基于半导体量子点的光子-自旋界面。

招生情况：

每年可招收光学方向博士研究生1名、硕士研究生2名。欢迎具有物理学、光学、微纳加工、单电子自旋与核自旋操控相关经验、以及对量子光学理论和实验感兴趣的同学通过Email联系。欢迎本科生提前进入实验室学习以及进行本科毕业设计。

承担课题:

【1】国家自然科学基金-青年科学基金项目，2024.01-2026.12，主持，在研

【2】博士后科学基金-面上项目，2023.10-2024.10，主持，结题

代表论著:

近年来以第一作者（含共同）发表Nature Photonics (IF:32.3) 2 篇，Nature Nanotechnology (IF:38.1)封面论文 1 篇，Light: Science & Applications (IF:20.6) 2 篇，Laser & Photonics Reviews(IF:9.8) 1 篇。

(#Co-first author，*Corresponding author)

[1] Shunfa Liu, Xueshi Li, Hanqing Liu, Guixin Qiu, Jiantao Ma, Liang Nie, Yun Meng, Xiaolong Hu, Haiqiao Ni, Zhichuan Niu, Cheng-Wei Qiu, Xuehua Wang*, Jin Liu*, Super-resolved snapshot hyperspectral imaging of solid-state quantum emitters for high-throughput integrated quantum technologies. Nature Photonics. 18, 967, 2024.

[2] Shunfa Liu#, Chris Gustin#, Hanqing Liu#, Xueshi Li, Ying Yu, Haiqiao Ni, Zhichuan Niu, Stephen Hughes, Xuehua Wang*, Jin Liu*. Dynamic resonance fluorescence in solid-state cavity quantum electrodynamics, Nature Photonics. 18, 318, 2024.

[3] Yuming Wei#, Shunfa Liu#, Xueshi Li, Ying Yu, Xiangbin Su, Shulun Li, ShangjunXiang, Hanqing Liu, Huiming Hao, Haiqiao Ni, Siyuan Yu, Zhichuan Niu, JakeIles-Smith, Jin Liu*, Xuehua Wang. Tailoring solid-state single-photon sources with stimulated emissions. Nature Nanotechnology. 17, 470, 2022. （封面论文）

[4] Ying Yu, Shunfa Liu, Chang-Min Lee, Peter Michler, Stephan Reitzenstein, Kartik Srinivasan, Edo Waks, Jin Liu*. Telecom-band quantum dot technologies for long-distance quantum networks. Nature Nanotechnology. 18, 1389, 2023.

[5] Shunfa Liu#; Yuming Wei#; Xueshi Li; Ying Yu*; Jin Liu*; Siyuan Yu; Xuehua Wang. Dual resonance enhanced quantum light-matter interactions in deterministically coupled quantum-dot micropillars, Light: Science & Applications, 10, 158, 2021.

[6] Xueshi Li#, Shunfa Liu#, Yuming Wei, Jiantao Ma, Changkun Song, Ying Yu, Rongbin Su, Wei Geng, Haiqiao Ni, Hanqing Liu, Xiangbin Su, Zhichuan Niu*, You-ling Chen*, Jin Liu*. Bright semiconductor single-photon sources pumped by heterogeneously integrated micropillar lasers with electrical injections, Light: Science & Applications, 12, 65, 2023.

[7] Shunfa Liu, Kartik Srinivasan*, and Jin Liu*. Nanoscale positioning approaches for integrating single solid‐state quantum emitters with photonic nanostructures. Laser & Photonics Reviews, 15, 2100223, 2021.

[8] Junyong Yan#, Shunfa Liu#, Xing Lin, Yongzheng Ye, Jiawang Yu, Lingfang Wang, Ying Yu*, Yanhui Zhao, Yun Meng, Xiaolong Hu, Da-Wei Wang, Chaoyuan Jin, Feng Liu*. Double-Pulse Generation of Indistinguishable Single Photons with Optically Controlled Polarization, Nano Letters, 22, 1483, 2022.

beat·365(中国)-唯一官方网站

liwei373 — Wed, 18 Sep 2024 04:15:59 +0000

职称：副教授
学位：博士
毕业学校：beat365中国唯一官方网站
办公室：南校区爪哇堂209
电子邮件： liwei373@mail.sysu.edu.cn

主要经历:

工作经历：

2024年7月至今，beat365中国唯一官方网站，beat365中国唯一官方网站，副教授

2022年6月至2024年6月，beat365中国唯一官方网站，电子与信息工程学院，博士后

教育经历：

2017-09至2021-06，beat365中国唯一官方网站，光学，博士

2010-09至2013-06，华南师范大学，光学工程，硕士

2006-09至2010-06，洛阳师范学院，物理学，学士

学科方向:

主要从事人工微纳结构光学原理与室温量子态操控研究，具体方向包括：

【1】基于表面等离激元的量子强耦合调控及其室温光量子器件

【2】新型超低损耗杂化微腔的设计与光场调控机制

【3】等离激元-介质微腔杂化模与激子的强耦合作用

【4】室温量子态的高效制备、动态调控和超快探测

招生与要求：

每年可在光学方向招收硕士研究生 2 名；

根据个人情况，学习并开展光-物质强耦合相互作用以及微纳光学物态调控研究，包括：理论推导、数值仿真、微纳制备、光学测试、系统搭建与开发等一个或数个方面工作。

欢迎本科生提前进入实验室学习以及进行本科毕业设计，有意向了解详情的同学请通过Email联系。

承担课题:

1. 国家自然科学基金重点项目，2024.01-2028.12，主持分本，在研

2. 中央高校基本科研业务费，2024，主持，在研

3. 国家自然科学基金面上项目，2020.01-2023.12，参与，结题

4. 广东省重点领域研发计划，2019.01-2022.12，参与，结题

代表论著:

[1] Jie Zhong, Jun-Yu Li, Jin Liu, Yifan Xiang, He Feng, Renming Li, Wei Li*, Xue-Hua Wang*, Room-Temperature Strong Coupling of Few-Exciton in a Monolayer WS2 with Plasmon and Dispersion Deviation, Nano Letters 24, 1579-1586 (2024).

[2] Zeyang Liao, Yu-Wei Lu, Wei Li*, Xue-Hua Wang*, Optical scattering imaging with sub-nanometer precision based on position-ultra-sensitive giant Lamb shift, SCIENCE CHINA Physics, Mechanics & Astronomy 67, 264212 (2024).

[3] Wei Li, Renming Liu*, Junyu Li, Jie Zhong, Yu-Wei Lu, Huanjun Chen, Xue-Hua Wang*, Highly Efficient Single-Exciton Strong Coupling with Plasmons by Lowering Critical Interaction Strengthat an Exceptional Point, Physical Review Letters 130, 143601 (2023). 【入选Editors’ Suggestion】

[4] Jin Liu, Wei Li*, Junyu Li, Jie Zhong, He Feng, Renming Liu, Xue-Hua Wang*, Reshaping plasmon modes by film interference, SCIENCE CHINA Physics, Mechanics & Astronomy 66, 114211 (2023).

[5] Jun-Yu Li#, Wei Li#, Jin Liu, Jie Zhong, Renming Liu*, Huanjun Chen, and Xue-Hua Wang*, Room-Temperature Strong Coupling Between a Single Quantum Dot and a Single Plasmonic Nanoparticle, Nano Letters 22, 4686-4693 (2022).

[6] Yu-Wei Lu, Wei Li, Renming Liu, Yanxiong Wu, Haishu Tan*, Yongyao Li†, Jing-Feng Liu, Plasmon-assisted low-threshold nanolasers, Physical Review B 106, 115434 (2022).

[7] Wei Li, Renming Liu*, Xue-Hua Wang*, Anomalous spectral response of plasmon-exciton strong coupling beyond J-C model, Results in Physics, 31,105064 (2021).

beat·365(中国)-唯一官方网站

chenx889 — Fri, 24 Nov 2023 01:12:52 +0000

职称：副教授（博士研究生导师）
学位：博士
毕业学校：波士顿学院
办公室：南校区爪哇堂408
电子邮件： chenx889@mail.sysu.edu.cn

主要经历:

工作经历

副教授：

beat365中国唯一官方网站，beat365中国唯一官方网站 11/2023 - 至今

博士后：

(美国) 劳伦斯伯克利国家实验室 11/2018 - 10/2023

(美国) 加州大学伯克利分校，物理系 09/2018 - 10/2023

教育背景

博士，物理学：

(美国) 波士顿学院，物理系 (博士学位, 2018) 08/2010 - 12/2014

(美国) 加州大学圣塔芭芭拉分校，材料系 01/2015 - 08/2018

本科，物理：

南京大学 (江苏) ，beat365中国唯一官方网站 09/2006 - 07/2010

学科方向:

研究兴趣：

实验凝聚态物理，研究兴趣主要集中在：量子和低维（二维）磁性与电子材料的原创性物质探索，以及相关的磁电物性调控与散射实验研究。近期重点研究的方向包括：二维范德华磁性材料的探索生长与磁性研究、新兴领域（如笼目阻挫磁体和交错磁体）的材料探索以及动态自旋激发的研究等。

实验研究技术：

1）晶体制备与表征。样品制备方法包括但不限于：助熔剂法、固相反应法、光学浮区炉、化学气相传输等。

2）同步辐射X射线散射和中子散射：利用国内和国外的大型科研设施（包括同步辐射X射线谱仪和中子谱仪）开展弹性和非弹性的散射实验。

研究方向：

1）新颖量子磁性材料和低维（二维）磁性材料的原创性探索、制备与物性调控

2）量子和低维（磁性）材料中电荷序、磁有序等长程序的散射研究

3）量子磁性和低维磁性材料的自旋激发研究

招生：

每年招收1名博士研究生、1-2名硕士研究生。欢迎优秀的博士研究生、硕士研究生和本科生咨询和交流，可以进行暑期实习和毕业设计等科研训练。欢迎具有物理、材料背景的，对实验或者理论计算模拟感兴趣的同学加入。

承担课题:

beat365中国唯一官方网站高校基本科研业务费，2024-2024，主持，在研。

beat365中国唯一官方网站基本业务启动项目，2023-2026，主持，在研。

技术专长:

晶体制备与表征；同步辐射散射；中子散射；

荣誉获奖:

曾宪梓奖学金；南京大学优秀毕业生

主要兼职:

物理杂志审稿人：Phys. Rev. Lett.、Phys. Rev. B、Nat. Commun.等

代表论著:

(共同一作标为#，共同通讯标为*）

入职beat365中国唯一官方网站之后（2024年-至今）

[39] Hongrui Zhang#*, Yu-Tsun Shao#, Xiang Chen#*, Binhua Zhang#, Tianye Wang, Fanhao Meng, Kun Xu, Peter Meisenheimer, Xianzhe Chen, Xiaoxi Huang, Piush Behera, Sajid Husain, Tiancong Zhu, Hao Pan, Yanli Jia, Nick Settineri, Nathan Giles-Donovan, Zehao He, Andreas Scholl, Alpha N’Diaye, Padraic Shafer, Archana Raja, Changsong Xu*, Lane W Martin, Michael F Crommie, Jie Yao, Ziqiang Qiu, Arun Majumdar, Laurent Bellaiche, David A Muller, Robert J Birgeneau, Ramamoorthy Ramesh*: Spin disorder control of topological spin texture, Nat. Commun. 15, 3828 (2024). DOI: 10.1038/s41467-024-47715-5

[38] Xiang Chen*, Alejandro Ruiz, Alexander J Bishop, Brandon Gunn, Rourav Basak, Tiancong Zhu, Yu He, Mayia Vranas, Eugen Weschke, Roland K Kawakami, Robert J Birgeneau, Alex Frano*: Antiferromagnetic order in the layered magnetic topological insulator MnBi2Se4 probed by resonant soft x-ray scattering, Phys. Rev. B 109, 184418 (2024). DOI: 10.1103/PhysRevB.109.184418

[37] Han Wu, Lei Chen, Paul Malinowski, Bo Gyu Jang, Qinwen Deng, Kirsty Scott, Jianwei Huang, Jacob PC Ruff, Yu He, Xiang Chen, Chaowei Hu, Ziqin Yue, Ji Seop Oh, Xiaokun Teng, Yucheng Guo, Mason Klemm, Chuqiao Shi, Yue Shi, Chandan Setty, Tyler Werner, Makoto Hashimoto, Donghui Lu, Turgut Yilmaz, Elio Vescovo, Sung-Kwan Mo, Alexei Fedorov, Jonathan D Denlinger, Yaofeng Xie, Bin Gao, Junichiro Kono, Pengcheng Dai, Yimo Han, Xiaodong Xu, Robert J Birgeneau, Jian-Xin Zhu, Eduardo H da Silva Neto, Liang Wu, Jiun-Haw Chu, Qimiao Si, Ming Yi*: Reversible non-volatile electronic switching in a near-room-temperature van der Waals ferromagnet, Nature Communications, 15(1), 2739 (2024). DOI: 10.1038/s41467-024-46862-z

[36] Saizheng Cao, Xin Ma, Dongsheng Yuan, Zhen Tao, Xiang Chen, Yu He, Patrick N. Valdivia, Shan Wu, Hang Su, Wei Tian, Adam A. Aczel, Yaohua Liu, Xiaoping Wang, Zhijun Xu, Huiqiu Yuan, Edith Bourret-Courchesne, Chao Cao, Xingye Lu, Robert Birgeneau, Yu Song*: Superstructures and magnetic order in heavily Cu-substituted (Fe1−xCux)1+yTe, Phy. Rev. B 109, 045142 (2024). DOI: 10.1103/PhysRevB.109.045142

[35] Hongrui Zhang#*, Xiang Chen#, Tianye Wang#, Xiaoxi Huang, Xianzhe Chen, Yu-Tsun Shao, Fanhao Meng, Peter Meisenheimer, Alpha N'Diaye, Christoph Klewe, Padraic Shafer, Hao Pan, Yanli Jia, Michael F. Crommie, Lane W. Martin, Jie Yao, Ziqiang Qiu, David A. Muller, Robert J. Birgeneau, Ramamoorthy Ramesh*: Room-Temperature, Current-Induced Magnetization Self-Switching in A Van Der Waals Ferromagnet, Adv. Mater. 36 (9), 2308555 (2023). DOI: 10.1002/adma.202308555

入职beat365中国唯一官方网站之前（2024年以前）

[34] Cheng Chen#, Weichen Tang#, Xiang Chen, Zhibo Kang, Shuhan Ding, Kirsty Scott, Siqi Wang, Zhenglu Li, Jacob PC Ruff, Makoto Hashimoto, Dong-Hui Lu, Chris Jozwiak, Aaron Bostwick, Eli Rotenberg, Eduardo H da Silva Neto, Robert J Birgeneau, Yulin Chen, Steven G Louie*, Yao Wang*, Yu He*: Anomalous excitonic phase diagram in band-gap-tuned Ta2Ni(Se,S)5, Nat. Commun. 14 (1), 7512 (2023). DOI: 10.1038/s41467-023-43365-1

[33] Cheng Chen#, Xiang Chen#, Weichen Tang, Zhenglu Li, Siqi Wang, Shuhan Ding, Zhibo Kang, Chris Jozwiak, Aaron Bostwick, Eli Rotenberg, Makoto Hashimoto, Donghui Lu, Jacob PC Ruff, Steven G Louie, Robert J Birgeneau, Yulin Chen, Yao Wang*, Yu He*: Role of electron-phonon coupling in excitonic insulator candidate Ta2NiSe5, Phys. Rev. Research 5 (4), 043089 (2023). DOI: 10.1103/PhysRevResearch.5.043089

[32] Yanan Yuan, Daxiang Liu, Jingjing Yu, Guanhua Zhang, Xiang Chen, Ruiqi Liu, Siyu Wang, Fangfang Pei, Long Wei, Zhi Li, Junming Guo, Shouguo Wang, Zhaoliang Liao, Wensheng Yan, Ziqiang Qiu, Mengmeng Yang*, Qian Li*: Modulating above-room-temperature magnetism in Ga-implanted Fe5GeTe2 van der Waals magnets, APL Mater. 11, 091101 (2023). DOI: 10.1063/5.0168468

[31] Peter Meisenheimer#*, Hongrui Zhang#*, David Raftrey, Xiang Chen, Yu-Tsun Shao, Ying-Ting Chan, Reed Yalisove, Rui Chen, Jie Yao, Mary C Scott, Weida Wu, David A Muller, Peter Fischer, Robert J Birgeneau, Ramamoorthy Ramesh: Ordering of room-temperature magnetic skyrmions in a polar van der Waals magnet, Nat. Commun. 14 (1), 3744 (2023). DOI: 10.1038/s41467-023-39442-0

[30] Xiang Chen*, Wei Tian, Yu He, Hongrui Zhang, Tyler L. Werner, Saul Lapidus, Jacob P. C. Ruff, Ramamoorthy Ramesh, and Robert J. Birgeneau: Thermal cycling induced alteration of the stacking order and spin-flip in the room temperature van der Waals magnet Fe5GeTe2, Phys. Rev. Mater. 7, 044411 (2023). DOI: 10.1103/PhysRevMaterials.7.044411

[29] Reed Yalisove*, Sandhya Susarla, Hongrui Zhang, Rui Chen, Xiang Chen, Robert J Birgeneau, Jie Yao, Ramamoorthy Ramesh, Mary Scott: Unravelling Temperature-Dependent Ordered Skyrmion Phases in Magnetic Layered Materials using Lorentz transmission Electron Microscopy, Microsc. Microanal. 28 (Suppl 1), 2022. DOI: 10.1017/S1431927622006778

[28] Xiang Chen*, Enrico Schierle, Yu He, Mayia Vranas, John William Freeland, Jessica. L. McChesney, Ramamoorthy Ramesh, Robert J. Birgeneau, and Alex Frano*: Antiferromagnetic order in Co-doped Fe5GeTe2 probed by resonant magnetic x-ray scattering, Phy. Rev. Mater. 6, 094404 (2022). DOI: 10.1103/PhysRevMaterials.6.094404

[27] Yu Song*, Shan Wu, Xiang Chen, Yu He, Hiroshi Uchiyama, Baizhuo Li, Saizheng Cao, Jiayu Guo, Guanghan Cao, Robert Birgeneau: Phonon softening and slowing down of charge-density-wave fluctuations in BaNi2As2, Phys. Rev. B 107, L041113 (2023). DOI: 10.1103/PhysRevB.107.L041113

[26] Xiang Chen*, Yu-Tsun Shao, Rui Chen, Sandhya Susarla, Tom Hogan, Yu He, Hongrui Zhang, Siqi Wang, Jie Yao, Peter Ercius, David A Muller, Ramamoorthy Ramesh, Robert J Birgeneau*: Pervasive beyond Room-Temperature Ferromagnetism in a Doped van der Waals Magnet, Phys. Rev. Lett. 128, 217203 (2022). DOI: 10.1103/PhysRevLett.128.217203

[25] Shuting Peng, Christopher Lane, Yong Hu, Mingyao Guo, Xiang Chen, Zeliang Sun, Makoto Hashimoto, Donghui Lu, Zhi-Xun Shen, Tao Wu, Xianhui Chen, Robert S Markiewicz, Yao Wang, Arun Bansil, Stephen D Wilson, Junfeng He*: Electronic nature of the pseudogap in electron-doped Sr2IrO4, npj Quantum Mater. 7, 58 (2022). DOI: 10.1038/s41535-022-00467-1

[24] Hongrui Zhang#*, David Raftrey#, Ying-Ting Chan#, Yu-Tsun Shao#, Rui Chen, Xiang Chen, Xiaoxi Huang, Jonathan T Reichanadter, Kaichen Dong, Sandhya Susarla, Lucas Caretta, Zhen Chen, Jie Yao, Peter Fischer, Jeffrey B Neaton, Weida Wu, David A Muller, Robert J Birgeneau, Ramamoorthy Ramesh*: Room-temperature skyrmion lattice in a layered magnet (Fe0.5Co0.5)5GeTe2, Sci. Adv. 8, eabm7103 (2022). DOI: 10.1126/sciadv.abm7103

[23] Hongrui Zhang#*, Yu-Tsun Shao#, Rui Chen#, Xiang Chen#, Sandhya Susarla, David Raftrey, Jonathan T Reichanadter, Lucas Caretta, Xiaoxi Huang, Nicholas S Settineri, Zhen Chen, Jingcheng Zhou, Edith Bourret-Courchesne, Peter Ercius, Jie Yao, Peter Fischer, Jeffrey B Neaton, David A Muller, Robert J Birgeneau, Ramamoorthy Ramesh*: A room temperature polar magnetic metal, Phys. Rev. Mater. 6, 044403 (2022). DOI: 10.1103/PhysRevMaterials.6.044403

[22] Alberto de la Torre, Kyle L Seyler, Michael Buchhold, Yuval Baum, Gufeng Zhang, Nicholas J Laurita, John W Harter, Liuyan Zhao, Isabelle Phinney, Xiang Chen, Stephen D Wilson, Gang Cao, Richard D Averitt, Gil Refael, David Hsieh*: Decoupling of static and dynamic criticality in a driven Mott insulator, Commun. Phys. 5, 35 (2022). DOI: 10.1038/s42005-022-00813-6

[21] He Zhao, Zach Porter, Xiang Chen, Stephen D Wilson, Ziqiang Wang, Ilija Zeljkovic*: Imaging antiferromagnetic domain fluctuations and the effect of atomic scale disorder in a doped spin-orbit Mott insulator, Sci. Adv. 7, abi6468 (2021). DOI: 10.1126/sciadv.abi6468

[20] Rui Chen, Fuchuan Luo, Yuzi Liu, Yu Song, Yu Dong, Shan Wu, Jinhua Cao, Fuyi Yang, Alpha N’Diaye, Padraic Shafer, Yin Liu, Shuai Lou, Junwei Huang, Xiang Chen, Zixuan Fang, Qingjun Wang, Dafei Jin, Ran Cheng, Hongtao Yuan, Robert J Birgeneau, Jie Yao*: Tunable room-temperature ferromagnetism in Co-doped two-dimensional van der Waals ZnO, Nat. Commun. 12, 3952 (2021). DOI: 10.1038/s41467-021-24247-w

[19] Xiang Chen*, Yu He, Shan Wu, Yu Song, Dongsheng Yuan, Edith Bourret-Courchesne, Jacob PC Ruff, Zahirul Islam, Alex Frano, Robert J Birgeneau*: Structural and magnetic transitions in the planar antiferromagnet Ba4Ir3O10, Phys. Rev. B 103, 224420 (2021). DOI: 10.1103/PhysRevB.103.224420

[18] Shan Wu*, Yu Song*, Yu He, Alex Frano, Ming Yi, Xiang Chen, Hiroshi Uchiyama, Ahmet Alatas, Ayman H Said, Liran Wang, Thomas Wolf, Christoph Meingast, Robert J Birgeneau*: Short-Range Nematic Fluctuations in Sr1-xNaxFe2As2 Superconductors, Phys. Rev. Lett. 126, 107001 (2021). DOI: 10.1103/PhysRevLett.126.107001

[17] Hongrui Zhang*, Rui Chen, Kun Zhai, Xiang Chen, Lucas Caretta, Xiaoxi Huang, Rajesh V Chopdekar, Jinhua Cao, Jirong Sun, Jie Yao, Robert Birgeneau, Ramamoorthy Ramesh*: Itinerant ferromagnetism in van der Waals Fe5-xGeTe2 crystals above room temperature, Phys. Rev. B 102 (6), 064417 (2020). DOI: 10.1103/PhysRevB.102.064417

[16] J. W. Han#, Sun-Woo Kim#, W. S. Kyung, C. Kim, G. Cao, X. Chen, S. D. Wilson, Sangmo Cheon*, J. S. Lee*: Nonsymmorphic Dirac semimetal and carrier dynamics in doped spin-orbit-coupled Mott insulator Sr2IrO4, Phys. Rev. B 102, 041108(R) (2020). DOI: 10.1103/PhysRevB.102.041108

[15] Yong Hu#, Xiang Chen#, S.-T. Peng, C. Lane, M. Matzelle, Z.-L. Sun, M. Hashimoto, D.-H. Lu, E. F. Schwier, M. Arita, T. Wu, R. S. Markiewicz, K. Shimada, X.-H. Chen, Z.-X. Shen, A. Bansil, S. D. Wilson, and J.-F. He*: Spectroscopic Evidence for Electron-Boson Coupling in Electron-Doped Sr2IrO4, Phys. Rev. Lett. 123, 216402 (2019). DOI: 10.1103/PhysRevLett.123.216402

[14] Xiang Chen, Igor Krivenko, Matthew B. Stone, Alexander I. Kolesnikov, Thomas Wolf, Dmitry Reznik, Kevin S. Bedell, Frank Lechermann*, Stephen D. Wilson*: Unconventional Hund metal in a weak itinerant ferromagnet, Nat. Commun. 11 (1), 1-8 (2020). DOI: 10.1038/s41467-020-16868-4

[13] He Zhao, Sujit Manna, Zach Porter, Xiang Chen, Andrew Uzdejczyk, Jagadeesh Moodera, Ziqiang Wang, Stephen D. Wilson, Ilija Zeljkovic*: Atomic-scale fragmentation and collapse of antiferromagnetic order in a doped Mott insulator, Nat. Phys., 15(12), 1267-1272 (2019). DOI: 10.1038/s41567-019-0671-9

[12] Xiang Chen, Julian Schmehr, Zahirul Islam, Zach Porter, Eli Zoghlin, Kenneth Finkelstein, Jacob P. C. Ruff, Stephen D Wilson*: Unidirectional spin density wave state in metallic (Sr1-xLax)2IrO4, Nat. Commun. 9, 103 (2018). DOI: 10.1038/s41467-017-02647-1

[11] J. H. Seo, G. H. Ahn, S. J. Song, X. Chen, S. D. Wilson, and S. J. Moon*: Infrared probe of pseudogap in electron-doped Sr2IrO4, Sci. Rep. 7, 10494 (2017). DOI: 10.1038/s41598-017-10725-z

[10] Mengliang Yao, Weishu Liu, Xiang Chen, Zhensong Ren, Stephen Wilson, Zhifeng Ren*, Cyril P. Opeil*: Anomalous CDW ground state in Cu2Se: a wave-like fluctuation of dc I-V curve near 50 K. J Materiomics. 3, 150 (2017). DOI: 10.1016/j.jmat.2016.12.003

[9] Mengliang Yao, Weishu Liu, Xiang Chen, Zhensong Ren, Stephen Wilson, Zhifeng Ren, Cyril Opeil*: Low temperature thermoelectric properties of p-type copper selenide with Ni, Te and Zn dopants. J. Alloys Compd. 699, 718 (2017). DOI: 10.1016/j.jallcom.2016.12.400

[8] Xiang Chen, Stephen D. Wilson*: Structural evolution and electronic properties of (Sr1-xCax)2-yIrO4+z spin-orbit assisted insulators. Phys. Rev. B 94, 195115 (2016). DOI: 10.1103/PhysRevB.94.195115 (Editor’s suggestion)

[7] Xiang Chen, Leland Harriger, Athena Sefat, R. J. Birgeneau, Stephen D. Wilson*: Strain-activated structural anisotropy in BaFe2As2. Phys. Rev. B 93, 144118 (2016). DOI: 10.1103/PhysRevB.93.144118

[6] Xiang Chen, Tom Hogan, D. Walkup, Wenwen Zhou, M. Pokharel, Mengliang Yao, Wei Tian, Thomas Z. Ward, Y. Zhao, D. Parshall, C. Opeil, J. W. Lynn, Vidya Madhavan, Stephen D. Wilson*: Influence of electron doping on the ground state of (Sr1−xLax)2IrO4. Phys. Rev. B 92, 075125 (2015). DOI: 10.1103/PhysRevB.92.075125

[5] Tom Hogan, Z. Yamani, D. Walkup, Xiang Chen, Rebecca Dally, Thomas Z. Ward, John Hill, Z. Islam, Vidya Madhavan, Stephen D. Wilson*: First-Order Melting of a Weak Spin-Orbit Mott Insulator into a Correlated Metal. Phys. Rev. Lett. 114, 257203 (2015). DOI: 10.1103/PhysRevLett.114.257203

[4] Junfeng He#*, H Hafiz#, Thomas R Mion, T Hogan, C Dhital, X. Chen, Qisen Lin, M Hashimoto, D H Lu, Y Zhang, R S Markiewicz, A Bansil, S D Wilson, Rui-Hua He*: Fermi Arcs vs. Fermi Pockets in Electron-doped Perovskite Iridates. Sci. Rep. 5, 8533 (2015). DOI: 10.1038/srep08533

[3] Junfeng He#, T. Hogan#, Thomas R. Mion, H. Hafiz, Y. He, S. -K. Mo, C. Dhital, X. Chen, Qisen Lin, Y. Zhang, M. Hashimoto, H. Pan, D. H. Lu, M. Arita, K. Shimada, R. S. Markiewicz, Z. Wang, K. Kempa, M. J. Naughton, A. Bansil, S. D. Wilson, Rui-Hua He*: Spectroscopic evidence for negative electronic compressibility in a quasi-three-dimensional spin-orbit correlated metal. Nat. Mater. 14, 577 (2015). DOI: 10.1038/nmat4273

[2] Chetan Dhital, Tom Hogan, Wenwen Zhou, Xiang Chen, Zhensong Ren, Mani Pokharel, Yoshinori Okada, M Heine, Wei Tian, Z Yamani, C Opeil, J S Helton, J W Lynn, Ziqiang Wang, Vidya Madhavan, Stephen D Wilson*: Carrier localization and electronic phase separation in a doped spin-orbit-driven Mott phase in Sr3(Ir1–xRux)2O7. Nat. Commun. 5, 3377 (2014). DOI: 10.1038/ncomms4377

[1] Chetan Dhital, Tom Hogan, Z. Yamani, Clarina de la Cruz, Xiang Chen, Sovit Khadka, Zhensong Ren, Stephen D. Wilson*: Neutron scattering study of correlated phase behavior in Sr2IrO4. Phys. Rev. B 87, 144405 (2013). DOI: 10.1103/PhysRevB.87.144405

beat·365(中国)-唯一官方网站

xiet69 — Wed, 01 Mar 2023 07:03:03 +0000

职称：副教授
学位：理学博士
毕业学校：中国科学院物理研究所

办公室：广州校区南校园爪哇堂408
电子邮件：xiet69@mail.sysu.edu.cn

主要经历:

工作经历：

2023年2月至今，beat365中国唯一官方网站，“百人计划”副教授

2020年1月至2023年1月，美国橡树岭国家实验室，博士后

2019年7月至2019年12月，中国科学院物理研究所，研究助理

教育经历：

2013年9月至2019年6月，中国科学院物理研究所，凝聚态物理专业，攻读博士学位

2009年9月至2013年7月，河南大学，物理学专业，攻读学士学位；

学科方向:

学科：凝聚态物理

研究方向：利用中子散射研究量子材料的新奇物性

谢涛副教授的主要研究兴趣有：（1）利用中子散射技术来研究超导及量子磁性材料中的静态磁结构和动态磁激发，致力于理解包括非常规超导电性、阻挫磁性等在内的新奇物性。（2）大尺寸、高质量的量子材料的单晶生长及其电、热、磁等性质的测量。课题组所在的中子科学与技术中心目前正与中国散裂中子源合作建设中国第一台高能直接几何非弹性中子散射飞行时间谱仪（中大谱仪），该谱仪预计将成为研究凝聚态物质的结构与动力学性质的重要平台。本课题组长期与美国、英国、日本、德国、法国、瑞士、澳大利亚等国家的中子源保持着良好的合作关系，课题组成员每年有多次前往这些中子源开展合作、交流的机会。此外，课题组拥有一流的晶体生长和物性测量设备。

招生招聘情况：每年招收1-2名研究生，研究生在读期间有前往世界各中子源工作、学习、交流的机会。欢迎愿意投身到凝聚态物理实验研究的高年级本科生及硕士生联系并加入我们。目前还可招收博士后1名。

承担课题:

1. 国家重点研发计划青年科学家项目，2025-2029，参与、任务负责人，在研

2. 国家自然科学基金青年科学基金项目，2024-2026，主持，在研

3. 广州市科技计划项目基础与应用基础研究专题，2024-2025，主持，在研

4. 松山湖材料实验室开放课题面上项目，2024-2025，主持，在研

5. beat365中国唯一官方网站“百人计划”项目，2023-2026，主持，在研

6. 中央高校基本科研业务费，2023，主持，结题

荣誉获奖:

2024年11月，beat365中国唯一官方网站优秀教师“芙兰奖”

2023年2月，beat365中国唯一官方网站“百人计划”引进人才

2019年7月，中国科学院院长特别奖

2018年12月，中国科学院物理研究所所长奖学金特优奖

2017年12月，中国科学院物理研究所所长奖学金表彰奖

2016年12月，中国科学院物理研究所所长奖学金表彰奖

2015年12月，中国科学院物理研究所所长奖学金表彰奖

代表论著:

[19] Tao Xie*#, S. Gozel#, Jie Xing, Nan Zhao, S. M. Avdoshenko, Liusuo Wu, Athena S. Sefat, A. L. Chernyshev, A. M. Läuchli, A. Podlesnyak, S. E. Nikitin*, Quantum Spin Dynamics Due to Strong Kitaev Interactions in the Triangular-Lattice Antiferromagnet CsCeSe2, Physical Review Letters 133, 096703 (2024). (*Corresponding author，#Co-first author)

[18] Tao Xie, Mengwu Huo, Xiaosheng Ni, Feiran Shen, Xing Huang, Hualei Sun, Helen C. Walker, Devashibhai Adroja, Dehong Yu, Bing Shen, Lunhua He, Kun Cao, Meng Wang*, Strong interlayer magnetic exchange coupling in La3Ni2O7−δ revealed by inelastic neutron scattering, Science Bulletin 69 , 3221-3227 (2024).

[17] Tao Xie*, Nan Zhao, S. Gozel, Jie Xing, S. M. Avdoshenko, K. M. Taddei, A. I. Kolesnikov, Peiyue Ma, N. Harrison, C. dela Cruz, Liusuo Wu, Athena S. Sefat, A. L. Chernyshev, A. M. Läuchli, A. Podlesnyak, S. E. Nikitin*, Stripe magnetic order and field-induced quantum criticality in the perfect triangular-lattice antiferromagnet CsCeSe2, Physical Review B 110, 054445 (2024). (*Corresponding author)

[16] Tao Xie*#, A. A. Eberharter#, J. Xing, S. Nishimoto, M. Brando, P. Khanenko, J. Sichelschmidt, A. A. Turrini, D. G. Mazzone, P. G. Naumov, L. D. Sanjeewa, N. Harrison, A. S. Sefat, B. Normand, A. M. Läuchli*, A. Podlesnyak, and S. E. Nikitin*, Complete field-induced spectral response of the spin-1/2 triangular-lattice antiferromagnet CsYbSe2, npj Quantum Materials 8, 48 (2023). (*Corresponding author，#Co-first author)

[15] S. E. Nikitin#, Tao Xie#, A. Gazizulina, B. Ouladdiaf, J. A. Rodríguez Velamazán, I. F. Díaz-Ortega, H. Nojiri, L. M. Anovitz, A. M. dos Santos, O. Prokhnenko, and A. Podlesnyak, Helical spin dynamics in commensurate magnets: A study on brochantite, Cu4SO4(OH)6, Physical Review Research 5, 033111 (2023). (#Co-first author)

[14] Tao Xie*#, Q. Yin#, Q. Wang, A. I. Kolesnikov, G. E. Granroth, D. L. Abernathy, D. Gong, Z. Yin, H. Lei*, and A. Podlesnyak*, Spin excitations in the kagome-lattice metallic antiferromagnet Fe0.89Co0.11Sn, Physical Review B 106, 214436 (2022). (*Corresponding author，#Co-first author)

[13] Tao Xie#, C. Liu#, R. Kajimoto, K. Ikeuchi, S. Li, and H. Luo, Spin fluctuations in the 112-type iron-based superconductor Ca0.82La0.18Fe0.96Ni0.04As2, Journal of Physics: Condensed Matter 34, 474001 (2022). (#Co-first author)

[12] Tao Xie, Z. Liu, Y. Gu, D. Gong, H. Mao, J. Liu, C. Hu, X. Ma, Y. Yao, L. Zhao, X. Zhou, J. Schneeloch, G. Gu, S. Danilkin, Y. Yang, H. Luo, and S. Li, Tracking the nematicity in cuprate superconductors: a resistivity study under uniaxial pressure, Journal of Physics: Condensed Matter 34, 334001 (2022).

[11] Tao Xie#, C. Liu#, T. Fennell, U. Stuhr, S.-L. Li, and H.-Q. Luo, Dispersion of Neutron Spin Resonance Mode in Ba0.67K0.33Fe2As2, Chinese Physics B 30, 127402 (2021). (#Co-first author)

[10] Tao Xie, S. E. Nikitin, A. I. Kolesnikov, E. Mamontov, L. M. Anovitz, G. Ehlers, I. Huskić, T. Friščić, and A. Podlesnyak, Direct determination of the zero-field splitting for the Fe3+ ion in a synthetic polymorph of NaMgFe(C2O4)3·9H2O: A natural metal-organic framework, Physical Review B 103, 024402 (2021).

[9] Tao Xie, C. Liu, F. Bourdarot, L.-P. Regnault, S. Li, and H. Luo, Spin-excitation anisotropy in the bilayer iron-based superconductor CaKFe4As4, Physical Review Research 2, 022018(R) (2020).

[8] Tao Xie, Y. Wei, D. Gong, T. Fennell, U. Stuhr, R. Kajimoto, K. Ikeuchi, S. Li, J. Hu, and H. Luo, Odd and Even Modes of Neutron Spin Resonance in the Bilayer Iron-Based Superconductor CaKFe4As4, Physical Review Letters 120, 267003 (2018).

[7] Tao Xie, D. Gong, H. Ghosh, A. Ghosh, M. Soda, T. Masuda, S. Itoh, F. Bourdarot, L.-P. Regnault, S. Danilkin, S. Li, and H. Luo, Neutron Spin Resonance in the 112-Type Iron-Based Superconductor, Physical Review Letters 120, 137001 (2018).

[6] Tao Xie, D. Gong, W. Zhang, Y. Gu, Z. Huesges, D. Chen, Y. Liu, L. Hao, S. Meng, Z. Lu, S. Li, and H. Luo, Crystal growth and phase diagram of 112-type iron pnictide superconductor Ca1−yLayFe1−xNixAs2, Superconductor Science and Technology 30, 095002 (2017).

[5] Weiliang Yao, Q. Huang, Tao Xie, A. Podlesnyak, A. Brassington, C. Xing, R. S. D. Mudiyanselage, H. Wang, W. Xie, S. Zhang, M. Lee, V. S. Zapf, X. Bai, D. A. Tennant, J. Liu, and H. Zhou, Continuous Spin Excitations in the Three-Dimensional Frustrated Magnet K2Ni2(SO4)3, Physical Review Letters 131, 146701 (2023).

[4] C. Liu, P. Bourges, Y. Sidis, Tao Xie, G. He, F. Bourdarot, S. Danilkin, H. Ghosh, S. Ghosh, X. Ma, S. Li, Y. Li, and H. Luo, Preferred Spin Excitations in the Bilayer Iron-Based Superconductor CaK(Fe0.96Ni0.04)4As4 with Spin-Vortex Crystal Order, Physical Review Letters 128, 137003 (2022).

[3] W. Hong, L. Song, B. Liu, Z. Li, Z. Zeng, Y. Li, D. Wu, Q. Sui, Tao Xie, S. Danilkin, H. Ghosh, A. Ghosh, J. Hu, L. Zhao, X. Zhou, X. Qiu, S. Li, and H. Luo, Neutron Spin Resonance in a Quasi-Two-Dimensional Iron-Based Superconductor, Physical Review Letters 125, 117002 (2020).

[2] W. Zhang, Y. Wei, Tao Xie, Z. Liu, D. Gong, X. Ma, D. Hu, P. Čermák, A. Schneidewind, G. Tucker, S. Meng, Z. Hüesges, Z. Lu, J. Song, W. Luo, L. Xu, Z. Zhu, X. Yin, H.-F. Li, Y. Yang, H. Luo, and S. Li, Unconventional Antiferromagnetic Quantum Critical Point in Ba(Fe0.97Cr0.03)2(As1−xPx)2, Physical Review Letters 122, 037001 (2019).

[1] Y. Gu, Z. Liu, Tao Xie, W. Zhang, D. Gong, D. Hu, X. Ma, C. Li, L. Zhao, L. Lin, Z. Xu, G. Tan, G. Chen, Z. Meng, Y. Yang, H. Luo, and S. Li, Unified Phase Diagram for Iron-Based Superconductors, Physical Review Letters 119, 157001 (2017).

beat·365(中国)-唯一官方网站

hext9 — Tue, 01 Mar 2022 10:25:03 +0000

职称：副教授

邮箱：hext9@mail.sysu.edu.cn

主要经历:

科研工作经历：

2023-06至今，beat365中国唯一官方网站，beat365中国唯一官方网站，副教授、硕士生导师

2022-01至2023-05，beat365中国唯一官方网站，beat365中国唯一官方网站，副研究员

2017-07至2022-01，beat365中国唯一官方网站，beat365中国唯一官方网站，博士后

学习经历：

2012-09至2017-06，beat365中国唯一官方网站，光学专业，博士
2008-08至2012-06，beat365中国唯一官方网站，光信息科学与技术专业，学士

学科方向:

围绕光子晶体、超构表面等人工微纳光学结构，开展相关物理机制与集成应用研究，具体方向包括：

【1】新颖片上光传输原理与超构波导

【2】微纳米光场调控机制与干涉结构

【3】新型微腔光器件设计与纳米光源

招生与要求：

每年可在光学方向招收硕士研究生2名；

根据个人情况，学习并开展光子晶体等微纳光学超构波导与微腔研究，包括：理论推导、数值仿真、微纳制备、光学测试、系统搭建与开发等一个或数个方面工作。

欢迎本科生提前进入实验室学习以及进行本科毕业设计，有意向了解详情的同学请通过Email联系。

承担课题:

国家自然科学基金面上项目，2023-2026，主持。
广东省自然科学基金杰出青年项目，2023-2026，主持。
国家自然科学基金青年项目，2020-2022，主持。
广东省自然科学基金博士科研启动项目，2018-2021，主持。
中国博士后科学基金面上项目，2018-2021，主持。
广州市基础与应用基础研究一般项目，2020-2023，主持。
科技部国家重点研发计划课题，2020-2022，第一参与人。
国家自然科学基金重点项目，2021-2025，第一参与人。

主要兼职:

光学国际期刊Optics Letters、Journal of Lightwave Technology、Journal of the Optical Society of America B等期刊杂志审稿人

代表论著:

[#标记并列第一作者，*标记通讯作者]

1. Guo-Jing Tang#, Xiao-Dong Chen#, Lu Sun#, Chao-Heng Guo, Meng-Yu Li, Zhong-Tao Tian, Hou-Hong Chen, Hong-Wei Wang, Qi-Yao Sun, Ying-Di Pan, Xin-Tao He*, Yi-Kai Su* and Jian-Wen Dong*, Broadband and fabrication-tolerant 3-dB couplers with topological valley edge modes, Light: Science & Applications 13, 166 (2024).

2. Chao-Heng Guo, Guo-Jing Tang, Meng-Yu Li, Wen-Jie Chen, Xin-Tao He* and Jian-Wen Dong*, Quantifying robustness against sharp bending in an integrated topological interface of valley photonic crystals, Nanophotonics 13, 1387-1395 (2024).

3. Xin-Tao He#, En-Tao Liang#, Jia-Jun Yuan#, Hao-Yang Qiu, Xiao-Dong Chen, Fu-Li Zhao, Jian-Wen Dong*, A silicon-on-insulator slab for topological valley transport, Nature Communications 10, 872 (2019). 【引用>400次，ESI高被引论文】

4. Yang Chen#, Xin-Tao He#, Yu-Jie Cheng, Hao-Yang Qiu, Lan-Tian Feng, Ming Zhang, Dao-Xin Dai, Guang-Can Guo, Jian-Wen Dong*, Xi-Feng Ren*, Topologically protected valley-dependent quantum photonic circuits, Physical Review Letters 126, 230503 (2021). 【入选Editors’ Suggestion】

5. Xin-Tao He#, Meng-Yu Li#, Hao-Yang Qiu, Wen-Sheng Ruan, Li-Dan Zhou, Lin Liu, Xiao-Dong Chen, Wen-Jie Chen, Fu-Li Zhao, Jian-Wen Dong*, In-plane excitation of topological nanophotonic corner state at telecom in a cross-coupled cavity, Photonics Research 9, 1423 (2021). 【入选Editors’ Pick】

6. Xin-Tao He, Jian-Wei Liu, Fu-Long Shi, Ke Shen, Wen-Jie Chen, Xiao-Dong Chen*, Jian-Wen Dong, Dual-polarization two-dimensional valley photonic crystals, SCIENCE CHINA Physics, Mechanics & Astronomy 65, 284212 (2022).

7. Xin-Tao He, Chao-Heng Guo, Guo-Jing Tang, Meng-Yu Li, Xiao-Dong Chen*, and Jian-Wen Dong*, Topological Polarization Beam Splitter in Dual-Polarization All-Dielectric Valley Photonic Crystals, Physical Review Applied 18, 044080 (2022).

8. Wen-Sheng Ruan, Xin-Tao He*, Fu-Li Zhao, Jian-Wen Dong, Analysis of unidirectional coupling in topological valley photonic crystal waveguides, Journal of Lightwave Technology 39, 889 (2021).

9. Guo-Jing Tang#, Xin-Tao He#, Fu-Long Shi, Jian-Wei Liu, Xiao-Dong Chen*, Jian-Wen Dong*, Topological photonic crystals: physics, designs and applications, Laser & Photonics Reviews 16, 2100300 (2022). 【拓扑光子晶体领域31页长篇综述】

10. Xiao-Dong Chen#, Xin-Tao He#, Jian-Wen Dong*, All-Dielectric Layered Photonic Topological Insulators, Laser & Photonics Reviews 13, 1900091 (2019).

11. Yan Liu#, Qing-Yun Yu#, Ze-Ming Chen#, Hao-Yang Qiu, Rui Chen, Shao-Ji Jiang, Xin-Tao He*, Fu-Li Zhao*, Jian-Wen Dong*, Meta-objective with sub-micrometer resolution for microendoscopes, Photonics Research 9, 106 (2021).

12. Meng-Yu Li, Wen-Jie Chen, Xin-Tao He*, Jian-Wen Dong*, Multiport Routing of Topologically Optical Transport Based on Merging of Valley-Dependent Edge States and Second-Order Corner States, Frontiers in Physics 10, 902533 (2022).

13. Jian-Wei Liu#, Fu-Long Shi#, Xin-Tao He#, Guo-Jing Tang, Wen-Jie Chen, Xiao-Dong Chen*, Jian-Wen Dong*, Valley photonic crystals, Advances in Physics: X 6, 1905546 (2021).

14. Jia-Jun Yuan#, Xin-Tao He#, Fu-Li Zhao*, and Jian-Wen Dong*, Selective Excitation of Band Extrema in Valley Photonic Crystals, Annalen der Physik 531, 1900090 (2019).

15. Xin-Tao He, Zhi-Zhen Huang, Ming-Li Chang, Shao-Zeng Xu, Fu-Li Zhao, Shao-Zhi Deng, Jun-Cong She*, and Jian-Wen Dong*, Realization of zero-refractive-index lens with ultralow spherical aberration, ACS Photonics 3, 2262 (2016).

16. You Zhou#, Xin-Tao He#, Fu-Li Zhao, and Jian-Wen Dong*, Proposal for achieving in-plane magnetic mirrors by silicon photonic crystals, Optics Letters 41, 2209 (2016).

17. Xin-Tao He, Yao-Nan Zhong, You Zhou, Zhi-Chao Zhong, and Jian-Wen Dong*, Dirac directional emission in anisotropic zero refractive index photonic crystals, Scientific Reports 5, 13085 (2015).

beat·365(中国)-唯一官方网站

anfp — Wed, 29 Dec 2021 01:09:02 +0000

职称：副教授
学位：博士
毕业学校：中国科学院高能物理研究所
电子邮件：anfp@mail.sysu.edu.cn

办公地址：beat365中国唯一官方网站南校区爪哇堂404

主要经历:

2022 - 至今 beat365中国唯一官方网站副教授，beat365中国唯一官方网站
2017 - 2021 beat365中国唯一官方网站副教授，华东理工大学
2017 - 2018 物理系访问学者， Stanford University
2013 - 2017 物理系讲师，华东理工大学
2007 - 2012 硕博连读研究生，中国科学院高能物理研究所
2003 - 2007 物理系本科生，华东师范大学

学科方向:

研究集中在高能实验物理领域，以中微子物理实验为主，目前参加的主要高能物理实验有：

同时进行利用中微子探测器监测反应堆的应用研究

计划在上述研究方向招收硕士研究生，欢迎有意报考的同学，欢迎本科生参与课题研究（Email联系）。

承担课题:

beat365中国唯一官方网站“百人计划”项目，2022～2027，在研，主持

国家自然科学基金面上项目，2021 ~ 2024 ，在研，主持

国家自然科学基金青年基金项目，2015 ~ 2017 ，结题，主持

中国博士后基金，2014～2016，结题，主持

中央高校基本科研业务费，2014～2016，结题，主持

国家自然科学基金重大项目子课题，2014～2018，结题，协作

技术专长:

高能物理实验物理分析
数据分析和模拟
统计分析和贝叶斯统计推断

荣誉获奖:

2016 Breakthrough Prize in Fundamental Physics (as a member of Daya Bay Collaboration)

代表论著:

F. P. An et al. [Daya Bay Collaboration], Antineutrino energy spectrum unfolding based on the Daya Bay measurement and its applications, Chin.Phys.C 45 (2021) 7, 073001

D. Adey et al. [Daya Bay Collaboration], Extraction of the $^{235}$U and $^{239}$Pu Antineutrino Spectra at Daya Bay Collaboration, Phys. Rev. Lett. 123, no.11, 111801 (2019)

D. Adey et al. [Daya Bay Collaboration], Measurement of the Electron Antineutrino Oscillation with 1958 Days of Operation at Daya Bay Collaboration, Phys. Rev. Lett. 121, no.24, 241805 (2018)

F. P. An et al. [Daya Bay Collaboration], Improved Measurement of the Reactor Antineutrino Flux and Spectrum at Daya Bay Collaboration, Chin. Phys. C 41, no.1, 013002 (2017)

F. P. An et al. [Daya Bay Collaboration], Measurement of the Reactor Antineutrino Flux and Spectrum at Daya Bay Collaboration, Phys. Rev. Lett. 116, no.6, 061801 (2016)

F. P. An et al. [JUNO Collaboration], Neutrino Physics with JUNO, J.Phys.G 43, 030401 (2016)

F. P. An et al. [Daya Bay Collaboration], New Measurement of Antineutrino Oscillation with the Full Detector Configuration at Daya Bay Collaboration, Phys. Rev. Lett. 115, no.11, 111802 (2015)

F. P. An et al. [Daya Bay Collaboration], Spectral measurement of electron antineutrino oscillation amplitude and frequency at Daya Bay Collaboration, Phys. Rev. Lett. 112, 061801 (2014)

F. P. An et al. [Daya Bay Collaboration], Improved Measurement of Electron Antineutrino Disappearance at Daya Bay Collaboration, Chin. Phys. C 37, 011001 (2013)

F. P. An et al. [Daya Bay Collaboration], Observation of electron-antineutrino disappearance at Daya Bay Collaboration, Phys. Rev. Lett. 108, 171803 (2012)

F. P. An, X. C. Tian, L. Zhan and J. Cao, Systematic impact of spent nuclear fuel on Theta(13) sensitivity at reactor neutrino experiment, Chin. Phys. C 33, 711-716 (2009)

beat·365(中国)-唯一官方网站

zhangyunw — Wed, 29 Sep 2021 08:34:52 +0000

职称：副教授
学位：博士
毕业学校：吉林大学
电子邮件：zhangyunw@mail.sysu.edu.cn

主要经历:

2021.09-今 beat365中国唯一官方网站副教授

2018.08-2021.08 剑桥大学卡文迪许实验室 Hughes Hall fellow, 博士后研究员

2017.09-2018.06 香港大学材料工程学院助理研究员

2017.01-2017.07 新加坡科技设计大学助理研究员

2013.09-2018.06 吉林大学超硬材料国家重点实验室博士

2009.09-2013.06 吉林大学 beat365中国唯一官方网站本科

学科方向:

凝聚态计算物理

主要研究方向：发展具有自主知识产权的多尺度智能计算方法研究复杂凝聚态材料体系

(1) 发展可解释人工智能算法预测锂电池健康状态及探究电池老化机理，人工智能电池管理体系研发；

(2) 发展以材料功能特性为驱动的生成式逆向设计方法，高效设计高温超导、二维磁性、半导体、量子材料等新型功能材料；

(3) 研究极端条件 (高压、高温) 下的晶体结构与电子结构相变。

承担课题:

1. 国家重点研发计划-青年科学家项目，针对中子谱仪的散射数据分析软件研发，2023.12.01-2028.11.30 (校内负责人, 300 万)

2. 国家自然科学基金项目-青年科学基金项目，中低压稳定三元氢基高温超导材料的逆向设计，2023.08.24-2026.12.31（主持，30 万）

3. 香港创新科技署香港汽车科技研发中心-创新及科技支持项目，电动汽车机器学习电池管理系统研发，2024.8.01 -2026.7.30（内地负责人，245 万）

4. 广东省自然科学基金-广东省面上基金，高压下无机电子化合物的结构与物性研究，2023.02.07-2025.12.31 （主持，10 万）

5. 国家重点研发计划-重点专项，大规模智能并行训练算法研究，2023.12.01-2026.11.30 （参与，350 万）

6. 幻量科技（上海）有限公司-横向项目，人工智能电池管理系统，2023.10.31-2025.10.24（主持，40 万）

7. 广州市科技计划-基础与应用基础研究项目，高压下过渡金属低碳化合物的结构和物性研究，2023.04.01-2025.03.31 (主持，5 万)

技术专长:

密度泛函理论

生成式人工智能

晶体结构预测

荣誉获奖:

2023年世界人工智能大会（WAIC）引领者奖，及最佳论文奖

Faraday Institution Travel Grants for Young Researchers （2020）

Outstanding Poster Presentation Price, Chemical Science Symposium 2020: How can machine learning and autonomy accelerate chemistry? （2020）

Faraday Institution Postdoctoral Training and Education Award（2019）

Hughes Hall Post-Doctoral Research Associate Competition, University of Cambridge （2019）

吉林省优秀博士毕业论文（2018）

吉林大学优秀博士毕业生（2018）

国家奖学金（2017）

代表论著:

(* corresponding author)

Zhihang Liu, Yi Sun, Yutian Li, Yuyang Liu, Yue Chen, Yunwei Zhang*, “Lithium-ion battery health prognosis via electrochemical impedance spectroscopy using CNN-BiLSTM model”. Journal of Materials Informatics, 4.2 (2024).
Zhiqiang Cui, Ying Luo, Lei Shi, Yue Chen and Yunwei Zhang*, "Development of novel superconductivity with higher Tc via the suppression of magnetism in quasi-two-dimensional electride Y2C under high pressures." Journal of Physics: Condensed Matter (2024).
Yaqi Wang, Binru Zhou, Xingfei Zhang, Huying Zheng, Runchen Wang, Junxing Dong, Lisheng Wang, Yunwei Zhang*, Zhicong Li, Yiyun Zhang, Xiaoyan Yi*, Junxi Wang, Jinmin Li, Hai Zhu*, "Ultra‐Narrow Linewidth Polariton Lasing in Optically Trapped Bose‐Einstein Condensates at Room Temperature." Laser & Photonics Review: 2400203 (2024).

Runchen Wang, Yaqi Wang, Junxing Dong, Lisheng Wang, Jingzhuo Wang, Yifan Zhang, Huanjun Chen, Yunwei Zhang*, Yiyun Zhang*, Yue Wang, Hai Zhu*, "The Intermode Polariton Parametric Scattering Laser in a Strong Coupled Microcavity via Two-photon”, Nano Letter (2024).
Zizhao Liu, Ye Tao, Zhiqiang Cui, Yi Ji, Xuhan Zhou, Peigen Li, Yunwei Zhang, Dingyong Zhong, "A two-dimensional tetragonal structure of vanadium telluride." Nano Research 16.5 (2023): 7749-7755.
Junzhi Ye, Zhenchao Li, Dominik J. Kubicki, Yunwei Zhang, Linjie Dai, Clara Otero-Martínez, Manuel A. Reus, Rakesh Arul, Kavya Reddy Dudipala, Zahra Andaji-Garmaroudi, Yi-Teng Huang, Zewei Li, Ziming Chen, Peter Müller-Buschbaum, Hin-Lap Yip, Samuel D. Stranks, Clare P. Grey, Jeremy J. Baumberg, Neil C. Greenham, Lakshminarayana Polavarapu, Akshay Rao*, and Robert L. Z. Hoye*, "Elucidating the Role of Antisolvents on the Surface Chemistry and Optoelectronic Properties of CsPbBrxI3-x Perovskite Nanocrystals." Journal of the American Chemical Society 144.27 (2022): 12102-12115.
Hualei Sun, Liang Qiu, Yifeng Han, Yunwei Zhang, Weiliang Wang, Chaoxin Huang, Naitian Liu, Mengwu Huo, Lisi Li, Hui Liu, Zengjia Liu, Peng Cheng, Hongxia Zhang, Hongliang Wang, Lijie Hao, Man-Rong Li, Dao-Xin Yao, Yusheng Hou, Pengcheng Dai, Meng Wang "Exchange field enhanced upper critical field of the superconductivity in compressed antiferromagnetic EuTe2." Communications Physics 6.1 (2023): 40.
Gang Wang, Yunwei Zhang (co-first author), Hae Sung Cho, Xiaowen Zhao, Franklin Kim*, Jianli Zou*. "Revisiting the structural evolution of MoS2 during alkali metal (Li, Na, and K) intercalation." ACS Applied Energy Materials 4.12 (2021): 14180-14190.
Wenhan Zhou, Shengli Zhang, Jiang Cao, Zhenhua Wu, Yangyang Wang, Yunwei Zhang, Zhong Yan, Hengze Qu, Haibo Zeng, "Modulating tunneling width and energy window for high-on-current two-dimensional tunnel field-effect transistors." Nano Energy 81 (2021): 105642.
Tom Ichibha, Yunwei Zhang (co-first author), Kenta Hongo, Fernando A. Reboredo, Ryo Maezono, “New structure Pbam-8 giving competitive stability at higher pressure range of dense hydrogen”. Physical Review B 104 (21), 214111 (2021).
Chen Chen, Le Fang, Guodong Zhao, Xingen Liu, Jian Wang, Yunwei Zhang*, Wei Ren, “Quantum anomalous Hall effect in monolayer electrides GdX (X=F, Cl, Br, and I)”, J. Mater. Chem. C (2021)
Yunwei Zhang, Qiaochu Tang, Ulrich Stimming, Alpha Lee, “Identifying degradation patterns of Li-ion batteries from impedance spectroscopy using machine learning ”, Nature Comms. 11 (1), 1-6 (2020) (Top 50 downloaded physics articles of the year in Nature Comms)
Zhaojun Li, Hope Bretscher, Yunwei Zhang, Géraud Delport, James Xiao, Alpha Lee, Samuel D. Stranks, and Akshay Rao, “Mechanistic insight to the chemical treatments of monolayer transition metal disulfides for photoluminescence enhancement”, Nature Comms. 11 (1), 1-9 (2021)
Seung Yong Lee, Jae-Yeol Hwang, Jongho Park, Chandani Nandadasa, Yonghak Kim, Joonho Bang, Kimoon Lee, Kyu Hyoung Lee, Yunwei Zhang, Yanming Ma, Hideo Hosono, Young Hee Lee, Seong-Gon Kim, “Quasi-atomic electrons in two-dimensional electride”, Nature Comms. 11 (1), 1-8 (2020)
Yanchao Wang, Meiling Xu, Liuxiang Yang, Bingmin Yan, Qin Qin, Xuecheng Shao, Yunwei Zhang, Xiaohuan Lin, Jian Lv, Dongzhou Zhang, Huiyang Gou, Ho-kwang Mao, Changfeng Chen, and Yanming Ma, “Pressure-stabilized divalent ozonide CaO3 and its impact on Earth’s oxygen cycles”, Nature Comms. 11 (1), 1-7 (2020)
Wenhai Zhou, Shengli Zhang, Jiang Cao, Zhenhua Wu, Yangyang Wang, Yunwei Zhang, Zhong Yan, Hengze Qu, Haibo Zeng, “Modulating tunneling width and energy window for high-on-current two-dimensional tunnel field-effect transistors”, Nano Energy, 81: 105642 (2020)
Yalong, Zhou, Weikang Wu, Fengxian Ma, Zhi-Ming Yu, Yunhao Lu, Xian-Lei Sheng, Yunwei Zhang*, Shengyuan A. Yang, “Room Temperature Magnetism and Strong Magnetic Anisotropy in Two-Dimensional Iron Arsenides”, Nanoscale, 11 (35), 16508-16514 (2019)
Yunwei Zhang, Weikang Wu, Yanchao Wang, Shengyuan Yang, Yanming Ma, “Pressure-Stabilized Semiconducting Electrides in Alkaline-Earth Metal Subnitrides”, J. Am. Chem. Soc. 139 (39), 13798–13803 (2017)
Yunwei Zhang, Hui Wang, Yanchao Wang, Lijun Zhang, Yanming Ma, “Computer-assisted Inverse Design of Inorganic Electrides”, Phys. Rev. X 7, 11017 (2017)
Ion Errea, Matteo Calandra, Chris J. Pickard, Joseph R. Nelson, Richard J.Needs, Yinwei Li, Hanyu Liu, Yunwei Zhang, Yanming Ma, Francesco Mauri, "Quantum hydrogen-bond symmetrization in the superconducting hydrogen sulfide system", Nature 532, 81 (2016)
Yinwei Li, Lin Wang, Hanyu Liu, Yunwei Zhang, Jian Hao, Pickard Chris J, Nelson Joseph R, Needs Richard J, Wentao Li, Yanwei Huang, Errea Ion, Calandra Matteo, Mauri Francesco, Yanming Ma, "Dissociation products and structures of solid H2S at strong compression", Phys. Rev. B. 93, 020103 (2016)
Ion Errea, Matteo Calandra, Chris J. Pickard, Joseph Nelson, Richard J. Needs, Yinwei Li, Hanyu Liu, Yunwei Zhang, Yanming Ma, Francesco Mauri, "High-Pressure Hydrogen Sulfide from First Principles: A Strongly Anharmonic Phonon-Mediated Superconductor", Phys. Rev. Lett. 114, 157004 (2015)

beat·365(中国)-唯一官方网站

chenjiy3 — Wed, 29 Sep 2021 03:13:08 +0000

职称：副教授
学位：博士
毕业学校：清华大学
电子邮件：chenjiy3@mail.sysu.edu.cn

主要经历:

2021.10 -- 至今 beat365中国唯一官方网站，副教授，硕士生导师

2021.04 -- 2021.09 (德国)达勒姆复杂量子系统中心，柏林自由大学，博士后 (invited position)

2019.04 -- 2021.03 (德国)马克斯普朗克量子光学研究所，博士后

2017.04 -- 2019.03 (法国)图卢兹理论物理研究室，法国国家科学中心与图卢兹大学，博士后

2011.09 -- 2017.01 清华大学物理系，物理学专业，获理学博士学位

2007.09 -- 2011.06 兰州大学物理科学与技术学院，物理学（理论物理）专业，获理学学士学位

学科方向:

学科：理论物理

研究内容：张量网络方法、量子多体物理

招生情况：每年招收硕士生，可招收专职科研人员与博士后。

承担课题:

1. beat365中国唯一官方网站百人计划基本启动经费，2021.10 -- 至今，主持

2. 低维量子物理国家重点实验室开放课题，2022.10 -- 2024.09，主持

3. beat365中国唯一官方网站高校基本科研业务费青年教师培育项目，2023.01 -- 2023.12，主持

4. 广州市基础与应用基础研究专题青年博士起航项目，2024.01 -- 至今，主持

5. 广东省基础与应用基础研究基金面上项目，2024.01 -- 至今，主持

6. 国家自然科学基金青年科学基金项目，2024.01 -- 至今，主持

7. 国家自然科学基金理论物理专款前沿引领项目，2025.01 -- 至今，主要参与者

主要兼职:

长期担任 Physical Review Letters, PRX Quantum, Physical Review B, Physical Review Research, Nature Communications, Journal of Statistical Mechanics : theory and experiment 等著名学术期刊审稿人

代表论著:

1. Wei-Lin Tu, Laurens Vanderstraeten, Norbert Schuch, Hyun-Yong Lee, Naoki Kawashima, Ji-Yao Chen, "Generating Function for Projected Entangled-Pair States", PRX Quantum 5, 010335 (2024).

2. Ji-Yao Chen, Jheng-Wei Li, Pierre Nataf, Sylvain Capponi, Matthieu Mambrini, Keisuke Totsuka, Hong-Hao Tu, Andreas Weichselbaum, Jan von Delft, and Didier Poilblanc, “Abelian SU(N)1 Chiral Spin Liquids on the Square Lattice”, Physical Review B 104, 235104 (2021).

3. Wei-Lin Tu, Huan-Kuang Wu, Norbert Schuch, Naoki Kawashima, and Ji-Yao Chen, “Generating Function for Tensor Network Diagrammatic Summation”, Physical Review B 103, 205155 (2021).

4. Ji-Yao Chen, Sylvain Capponi, Alexander Wietek, Matthieu Mambrini, Norbert Schuch, and Didier Poilblanc, “SU(3)1 Chiral Spin Liquid on the Square Lattice: A View from Symmetric Projected Entangled Pair States”, Physical Review Letters 125, 017201 (2020).

5. Ji-Yao Chen, Laurens Vanderstraeten, Sylvain Capponi, and Didier Poilblanc, “Non-Abelian chiral spin liquid in a quantum antiferromagnet revealed by an iPEPS study”, Physical Review B 98, 184409 (2018).

For a complete list, see https://scholar.google.de/citations?user=j6F5gHwAAAAJ&hl=zh-CN

beat·365(中国)-唯一官方网站

wangjy367 — Fri, 03 Sep 2021 06:10:03 +0000

职称：副教授
学位：博士
毕业学校：美国北卡州立大学
电子邮件：wangjy367@mail.sysu.edu.cn

联系电话：15300123329

主要经历:

2021.07-至今 beat365中国唯一官方网站 beat365中国唯一官方网站 “百人计划”副教授

2020.08-2021.02 美国北卡州立大学材料系博士后

2016.10-2019.06 美国犹他大学物理系博士后

2011.08-2016.07 美国北卡州立大学物理博士

2007.09-2011.06 南京大学物理学士

学科方向:

主要研究方向为有机物半导体、杂化钙钛矿，低维材料等先进半导体材料的光电、自旋等物理性质，以及先进半导体材料在光电器件（包括太阳能电池、LED等）和自旋器件中的应用。研究成果发表在Nature Communications, Science Advances, ACS Nano, Advanced Materials， Physical Review Letter等高水平期刊上。

具体的研究包括：

先进半导体材料的界面自旋态和自旋注入。
先进半导体材料的自旋输运性质及其机制。
先进半导体的光电器件制备和其性能调控。
先进半导体的光电性质与自旋的相互作用以及新型半导体电子器件开发。

每年招收1-2名硕士研究生，欢迎考研和保研的同学们联系，也欢迎本科生进组学习和进行毕业设计。

技术专长:

电子器件设计和制备

先进半导体材料合成

光电性质表征

自旋输运表征等

代表论著:

“Spin-Dependent Photovoltaic and Photogalvanic Responses of Optoelectronic Devices Based on Chiral Two-Dimensional Hybrid OrganicInorganic Perovskites” J. Wang, H. Lu, X. Pan, J. Xu, H. Liu, X. Liu, D. R. Khanal, M. F. Toney, M. C. Beard, Z. V. Vardeny, ACS Nano doi: 10.1021/acsnano.0c05980. (2020)
“Separation of Spin and Charge Transport in Pristine π-Conjugated Polymers” M. Groesbeck, H. Liu, M. Kavand, E. Lafalce, J. Wang, X. Pan, T. H. Tennahewa, H. Popli, H. Malissa, C. Boehme, Z. Vardeny Physical Review Letters, 124.6, 067702(2020)
“Tunable spin characteristic properties in spin valve devices based on hybrid organic-inorganic perovskites” J. Wang, C. Zhang, H .Liu, X. Liu, H. Guo, D. Sun, Z. V. Vardeny Advanced Materials 31.41: 1904059 (2019)
“Spin Optoelectronic Devices based on Hybrid Organic-Inorganic Perovskites” J. Wang, C. Zhang, R. McLaughlin, H. Liu, H. Guo, R. Tsuchikawa, V. Deshpande, Z. V. Vardeny Nature Communications 10.1, 129 (2019)
“Spin-dependent charge transport through 2D chiral hybrid lead-iodide perovskites” H. Lu,* J. Wang,* C. Xiao,* X. Pan, X.Chen, R. Brunecky, J. J Berry, K. Zhu, M. C. Beard, Z. V. Vardeny Science Advances, 5.12, eaay0571(2019)
“Light-Controlled Spintronic Device Based on Hybrid organic-inorganic perovskites” J. Wang, X. Pan, C. Zhang, H. Guo, Z. V. Vardeny Journal of Photonic Energy, 8.3 032207 (2018)
“Studies of spin related processes in fullerene C60 devices” H. Liu, J. Wang, M. Grocebeck, X. Pan, C. Zhang, Z. V. Vardeny Journal of Materials Chemistry C 6.14, 3621-3627 (2018)
“Tuning interfacial spin filters from metallic to resistive within a single organic semiconductor family” J. Wang, A. Deloach, W. Jiang, C. Papa, M. Myahkostupov, F. Castellano, F. Liu, D. B. Dougherty Phys. Rev. B, 95, 241410, (2017)
“Indirect Coupling of an Organic Semiconductor to a d-Orbital Shockley Surface State,” J. Wang, D. B. Dougherty Phys. Rev. B, 92, 161401, (2015)
“Molecular Doping Control at Topological Insulator Surface: F4-TCNQ on Bi2Se3” J. Wang, A. S. Hewitt, R. Kumar, J. Boltersdorf, T. GuanF. Hunte, P. A. Maggard, J. E. Brom, J. M. Redwing and D. B. Dougherty J. Phys. Chem. C, 27, 118, (2014)

beat·365(中国)-唯一官方网站

liwliang3 — Tue, 20 Jul 2021 02:35:11 +0000

Wenliang Li

职称：副教授
学位：博士
毕业学校：法国巴黎大学
电子邮件：liwliang3 AT mail.sysu.edu.cn

主要经历:

工作经历

2021/7 至今：beat365中国唯一官方网站，“百人计划” 副教授

2018/9 - 2021/7：日本OIST，博士后研究员

2016/12 - 2018/8：韩国首尔国立大学、庆熙大学，博士后研究员

2015/10 - 2016/8：希腊Crete大学，博士后研究员

教育经历

2012/9 - 2015/9：法国巴黎大学（Université de Paris，原Paris Diderot-Paris 7），理论物理博士

2011/9 - 2012/6：法国巴黎高师（École normale supérieure，ENS），理论物理硕士

2007/9 - 2011/6：beat365中国唯一官方网站，物理学学士

学科方向:

教学：量子力学、量子多体物理、大学物理

科研：Nonperturbative Bootstrap for Quantum Field Theory

量子场论可以看为“现代的微积分”，描述了丰富的物理现象，包括亚原子粒子物理、凝聚态物理（相变、超导、量子霍尔液体等）、早期宇宙暴涨、甚至量子引力，还导致了无穷维的新数学。微扰场论的成功只是冰山一角，更奇妙的强耦合/强关联现象需要非微扰场论。Bootstrap作为一种介于Reduction（以粒子物理为代表的还原论）和Emergence（以凝聚态物理为代表的涌现论）之间的观点，近年来在非微扰场论中取得了出人意料的进展，比如超越了传统的蒙特卡洛方法，严格地确定了最精确的3d Ising临界指数。

什么是Bootstrap？

基本原理 + 可观测量的自洽性 => 万物之理

“Nature is as it is because this is the only possible nature consistent with itself.” --Geoffrey Chew

Bootstrap继承了海森堡、朗道关于量子物理的观念。

关于Bootstrap的科普：点击链接

真空不“空”，“无”中生有？（见代表论著 “Null bootstrap...”）

物理自洽性的最小奇异性原理？（见代表论著 “Principle of minimal singularity...”）

本人主要研究兴趣在通过发展新的Bootstrap方法，研究丰富奇妙的强耦合物理，独立作者工作发表于PRL、JHEP等国际一流物理期刊，研究成果被权威综述Rev.Mod.Phys. 91 (2019) 015002 介绍，受邀在Bootstat 2021国际大会作1.5小时报告，所提出的新方法被国际同行用于结合机器学习【PRL 128, 041601 (2022), Editors' Suggestion】，研究高维Anderson转变【PRL 131, 266401 (2023), Editors' Suggestion】等。

欢迎本科生进入课题组进行科研训练；欢迎保送或报考研究生。

招收专职科研人员（研究员、副研究员）和博士后。

"If what you are doing is not important, and if you don't think it is going to lead to something important, why are you working on it?'' -- Richard Hamming 《You and your research》

以下引用师祖Steven Weinberg的观点：

"每个理论物理学家都必须具备一定的数学才能。这并不是说数学最好的人就会是最好的物理学家。很重要的一个素质是“进攻性”(agressiveness)，不是人与人关系中的“进攻性”，而是对自然的“进攻性”，不要安于接受书本上给你的答案，要去尝试下一步，尝试发现有什么与书本不同的东西。这种素质可能比智力更重要，往往是区别最好的学生和次好学生的标准。"

培养一个优秀科学人才的“关键”是什么？

温伯格: “我想关键在于让年轻人停止当学生，开始成为物理学研究者。是的，每个人都从学生开始，你修课，教授告诉你读什么，给你问题，但是你知道他不会给你一个没有答案的问题，而且问题都与课上讲的有关系。在现实世界里却完全不一样。首先不知道问题在哪里，能不能解决也不知道，用什么办法解决更不知道。为了帮助学生完成这个转变，在一定阶段要停止上课式的教学，转到不按步就班的学习。还没有教学生A，B，C，……就要他们去学Q。到了发现为了学会Q必须懂得M时，才返回来学M。”

承担课题:

广州市基础与应用基础研究项目，2023-2025，主持

国家自然科学基金青年项目，缺陷共形场论的Bootstrap研究，2023-2025，主持

beat365中国唯一官方网站百人计划启动经费，主持

日本学术振兴会（JSPS）KAKENHI 国家级项目，2019-2021，主持

荣誉获奖:

2024年入选广东省重大人才工程教育厅平台项目（引进类，青年学者）

代表论著:

Y. Guo, WL, “Anomalous dimensions from conformal field theory: generalized phi^{2n+1} theories,” arXiv: 2408.12344

WL, “Analytic trajectory bootstrap for matrix models,” arXiv: 2407.08593

WL, “The phi^n trajectory bootstrap,” arXiv: 2402.05778

WL, “Easy bootstrap for the 3D Ising model,” JHEP 07, 047 (2024), arXiv: 2312.07866

WL, “Principle of minimal singularity for Green's functions,” Phys. Rev. D 109, 045012 (2024), arXiv: 2309.02201

Y. Guo, WL, “Anomalous dimensions of partially-conserved higher-spin currents from conformal field theory: bosonic phi^{2n} theories,” Phys. Rev. D 109, 025015 (2024), arXiv: 2305.16916

Y. Guo, WL, “Solving anharmonic oscillator with null states: Hamiltonian bootstrap and Dyson-Schwinger equations,” Phys. Rev. D 108, 125002 (2023), arXiv: 2305.15992

WL, “Taming Dyson-Schwinger equations with null states,” Phys. Rev. Lett. 131, 031603 (2023), arXiv: 2303.10978

WL, “Null bootstrap for non-Hermitian Hamiltonians,” Phys. Rev. D 106, 12521 (2022), arXiv: 2202.04334

WL, “Ising model close to d=2,” Phys. Rev. D (Letter) 105, L091902 (2022), arXiv: 2107.13679

WL, “Factorized lightcone expansion of conformal blocks,” JHEP 05, 128 (2021) arXiv:2012.09710

WL, “Lightcone expansions of conformal blocks in closed form,” JHEP 06, 105 (2020) arXiv:1912.01168

WL, “Closed-form expression for cross-channel conformal blocks near the lightcone,” JHEP 01, 055 (2020) arXiv:1906.00707

T. Basile, E. Joung, S. Lal and WL, “Character integral representation of zeta function in AdSd+1. Part II. Application to partially-massless higher-spin gravities,” JHEP 07, 132 (2018) arXiv:1805.10092

T. Basile, E. Joung, S. Lal, and WL, “Character Integral Representation of Zeta function in AdSd+1: I. Derivation of the general formula,” JHEP 10, 091 (2018) arXiv:1805.05646

WL, “Inverse Bootstrapping Conformal Field Theories,” JHEP 01, 077 (2018) arXiv:1706.04054

WL, “A unifying framework for ghost-free Lorentz-invariant Lagrangian field theories,” Phys.Lett.B 779 (2018) 485-491, arXiv:1508.03247

E. Joung, WL, and M. Taronna, “No-Go Theorems for Unitary and Interacting Partially Massless Spin-Two Fields,” Phys. Rev. Lett. 113 (2014) 091101, arXiv:1406.2335

E. Kiritsis, WL, and F. Nitti, “Holographic RG flow and the Quantum Effective Action,” Fortsch.Phys. 62 (2014) 389-454, arXiv:1401.0888