Haowei Xu Group @ CityUHK

[* equal contribution, † corresponding author]

[38] Mark J Polking, Haowei Xu, Raman Sankar, Kevin Grossklaus, Ju Li, Strong long-wave infrared optical response in a topological semiconductor with a Mexican-hat band structure, Phys. Rev. B 111, 085101 (2025)

[37] Haowei Xu, Changhao Li, Guoqing Wang, Hao Tang, Paola Cappellaro, and Ju Li, Efficient quantum transduction using antiferromagnetic topological insulators, Phys. Rev. B 110, 085136 (2024)

[36] Hao Tang, Brian Xiao, Wenhao He, Pero Subasic, Avetik Harutyunyan, Yao Wang, Fang Liu, Haowei Xu†, and Ju Li†, Approaching coupled-cluster accuracy for molecular electronic structures with multi-task learning, Nature Computational Science 5, 144 (2024)

[35] Ri He*, Haowei Xu*, Peijun Yang, Kai Chang, Hua Wang, Zhicheng Zhong, Ferroelastic Twin-Wall-Mediated Ferroelectriclike Behavior and Bulk Photovoltaic Effect in SrTiO3, Physical Review Letters 132, 176801 (2024)

[34] Haowei Xu, Ju Li, Linear and nonlinear Edelstein effects in chiral topological semimetals, Materials Today Quantum, 5 100022 (2025)

[33] Manasi Mandal, Abhijatmedhi Chotrattanapituk, Kevin Woller, Lijun Wu, Haowei Xu, Nguyen Tuan Hung, Nannan Mao, Ryotaro Okabe, Artittaya Boonkird, Thanh Nguyen, Nathan C Drucker, Xiaoqian M Chen, Takashi Momiki, Ju Li, Jing Kong, Yimei Zhu, Mingda Li, Precise Fermi level engineering in a topological Weyl semimetal via fast ion implantation Applied Physics Reviews 11, 021429 (2024).

[32] Yang Jeong Park, Daniel Kaplan, Zhichu Ren, Chia-Wei Hsu, Changhao Li, Haowei Xu, Sipei Li, Ju Li, Can ChatGPT be used to generate scientific hypotheses? Journal of Materiomics 10, 578 (2024)

[31] Haowei Xu, Uroš Delić, Guoqing Wang, Changhao Li, Paola Cappellaro, and Ju Li, Exponentially Enhanced non-Hermitian Cooling. Physical Review Letters 132, 110402 (2024)

[30] So Yeon Kim, Sina Kavak, Kübra Gürcan Bayrak, Cheng Sun, Haowei Xu, Myeong Jun Lee, Di Chen, Yong Zhang, Emre Tekoğlu, Duygu Ağaoğulları, Erhan Ayas, Eun Soo Park, Ju Li, Demonstration of Helide formation for fusion structural materials as natural lattice sinks for helium, Acta Materialia 266, 119654 (2024)

[29] Hao Tang, Boning Li, Yixuan Song, Mengren Liu, Haowei Xu, Guoqing Wang, Heejung Chung, Ju Li, Reinforcement Learning‐Guided Long‐Timescale Simulation of Hydrogen Transport in Metals, Advanced Science 5, 2304122 (2024)

[28] Haowei Xu, Hao Tang, Guoqing Wang, Changhao Li, Boning Li, Paola Cappellaro, and Ju Li, Solid-state 229Th nuclear laser with two-photon pumping. Physical Review A (Letter) 108, L021502 (2023)

[27] Guoqing Wang*, Ariel Barr*, Hao Tang*, Mo Chen, Changhao Li, Haowei Xu, Andrew Stasiuk, Ju Li, and Paola Cappellaro, Characterizing Temperature and Strain Variations with Qubit Ensembles for Their Robust Coherence Protection. Physical Review Letters 131, 043602 (2023)

[26] Jiaojian Shi*, Haowei Xu*, Christian Heide, Changan HuangFu, Chenyi Xia, Felipe de Quesada, Hongzhi Shen, Tianyi Zhang, Leo Yu, Amalya Johnson, Fang Liu, Enzheng Shi, Liying Jiao, Tony Heinz, Shambhu Ghimire, Ju Li, Jing Kong, Yunfan Guo and Aaron M. Lindenberg, Giant room-temperature nonlinearities in a monolayer Janus topological semiconductor. Nature Commun. 14, 4953 (2023)

[25] Hao Tang*, Boning Li*, Guoqing Wang, Haowei Xu, Changhao Li, Ariel Barr, Paola Cappellaro, and Ju Li, Communication-Efficient Quantum Algorithm for Distributed Machine Learning. Physical Review Letters 130, 150602 (2023)

[24] Haowei Xu, Changhao Li, Guoqing Wang, Hua Wang, Hao Tang, Ariel Rebekah Barr, Paola Cappellaro, and Ju Li, Two-photon Interface of Nuclear Spins Based on the Opto-nucleonic Quadrupolar Effect. Physical Review X 13, 011017 (2023)

[23] Haowei Xu, Guoqing Wang, Changhao Li, Hua Wang, Hao Tang, Ariel Rebekah Barr, Paola Cappellaro, and Ju Li, Laser Cooling of Nuclear Magnons. Physical Review Letters 130, 063602 (2023)

[22] Mingzhi Cai, Yanhao Dong, Miao Xie, Wujie Dong, Chenlong Dong, Peng Dai, Hui Zhang, Xuzhou Sun, Shaoning Zhang, Moonsu Yoon, Haowei Xu, Yunsong Ge, Ju Li, and Fuqiang Huang, Stalling oxygen evolution in high-voltage cathodes by lanthurization. Nature Energy 8, 159–168 (2023)

[21] Hao Tang, Yin Zhang, Qing-Jie Li, Haowei Xu, Yuchi Wang, Yunzhi Wang, Ju Li, High accuracy neural network interatomic potential for NiTi shape memory alloy. Acta Materialia 238, 118217 (2022)

[20] Shitong Wang, Lijiang Zhao, Yanhao Dong, He Zhu, Yang Yang, Haowei Xu, Baoming Wang, Yakun Yuan, Yang Ren, Xiaojing Huang, Wei Quan, Yutong Li, Yimeng Huang, Charles M. Settens, Qi He, Yongwen Sun, Hua Wang, Zunqiu Xiao, Wenjun Liu, Xianghui Xiao, Riqiang Fu, Qiang Li, Yong S. Chu, Zhongtai Zhang, Qi Liu, Andrew M. Minor, Junying Zhang, Zilong Tang, and Ju Li, Pre-zeolite framework super-MIEC anodes for high-rate lithium-ion batteries. Energy Environ. Sci., (2023).

[19] Haowei Xu*, So Yeon Kim*, Cheng Sun, and Ju Li, Materials Genomics Search of Possible Helium-Absorbing Nano-Phases in Fusion Structural Materials. Adv. Sci. 9, 2203555 (2022).

[18] Yuying Zhou, Yifei Li, Jiahao Dong, Alan Schwartzman, Haowei Xu, Bilal Azhar, Joseph Bennett, Ju Li, and R. Jaramillo, Giant & controllable photo-plasticity and photo-elasticity in compound semiconductors. Physical Review Letters 129, 065501 (2022)

[17] Hua Wang, Xiuyu Tang, Haowei Xu, Ju Li, and Xiaofeng Qian, Generalized Wilson Loop Approach for Nonlinear Optical Responses. npj Quantum Materials 7, 61 (2022).

[16] Haowei Xu, Hua Wang, and Ju Li, Nonlinear Photocurrents with Nonreciprocal Phonon Dressing. Phys. Rev. B 106, 035102 (2022).

[15] Haowei Xu, Hua Wang, and Ju Li, Abnormal Nonlinear Optical Responses on the Surface of Topological Materials. npj Computational Materials 8, 111 (2022).

[14] Nicholas Kempf*, Mortaza Saeidi-Javash*, Haowei Xu*, Sheng Cheng, Megha Dubey, Yaqiao Wu, Joshua Daw, Ju Li, and Yanliang Zhang, Thermoelectric Power Generation in the Core of a Nuclear Reactor. Submitted. Energy Conversion and Management 268, 115949 (2022)

[13] Haowei Xu, Hua Wang, Jian Zhou, and Ju Li, Pure Spin Photocurrent in Non-centrosymmetric Crystals: Bulk Spin Photovoltaic Effect. Nature Commun. 12, 4330 (2021)

[12] Yunfan Guo, Yuxuan Lin, Kaichen Xie, Biao Yuan, Jiadi Zhu, Pin-Chun Shen, Ang-Yu Lu, Cong Su, Enzheng Shi, Kunyan Zhang, Changan HuangFu, Haowei Xu, Zhengyang Cai, Ji-Hoon Park, Qingqing Ji, Jiangtao Wang, Xiaochuan Dai, Xuezeng Tian, Shengxi Huang, Letian Dou, Liying Jiao, Ju Li, Yi Yu, Juan-Carlos Idrobo, Ting Cao, Tomás Palacios, and Jing Kong, Designing artificial two-dimensional landscapes via atomic-layer substitution. Proceedings of the National Academy of Sciences 118, 32 (2021).

[11] Haowei Xu, Jian Zhou, and Ju Li. Light-induced quantum anomalous Hall effect on the surfaces of topological insulators. Adv. Sci. 2101508 (2021)

[10] Haowei Xu, Jian Zhou, Hua Wang, and Ju Li, Light-Induced Static Magnetization: Nonlinear Edelstein Effect. Phys. Rev. B 103, 205417 (2021).

[9] Jian Zhou, Haowei Xu, Yongliang Shi, and Ju Li, Terahertz Driven Reversible Topological Phase Transition of Monolayer Transition Metal Dichalcogenides. Adv. Sci. 2003832 (2021).

[8] Haowei Xu, Hua Wang, Jian Zhou, Yunfan Guo, Jing Kong and Ju Li, Colossal switchable photocurrents in topological Janus transition metal dichalcogenides. npj Comput. Mater. 7, 1–9 (2021).

[7] Haowei Xu, Jian Zhou, Hua Wang, and Ju Li, J. Giant Photonic Response of Mexican-Hat Topological Semiconductors for Mid-infrared to Terahertz Applications. J. Phys. Chem. Lett. 11, 6119–6126 (2020).

[6] Haowei Xu, Jian Zhou, Yifei Li, R. Jaramillo, and Ju Li, Optomechanical control of stacking patterns of h-BN bilayer. Nano Res. 12, 2634–2639 (2019).

[5] Akshay Singh, Yifei Li, Balint Fodor, Laszlo Makai, Jian Zhou, Haowei Xu, Austin Akey, Ju Li, and R. Jaramillo, Near-infrared optical properties and proposed phase-change usefulness of transition metal disulfides. Appl. Phys. Lett. 115, 161902 (2019).

[4] Jian Zhou, Haowei Xu, Yifei Li, R. Jaramillo and Ju Li, Opto-Mechanics Driven Fast Martensitic Transition in Two-Dimensional Materials. Nano Lett. 18, 7794–7800 (2018).

[3] Haowei Xu, Boqiang Ma, Regularity of high energy photon events from gamma ray bursts. J. Cosmol. Astropart. Phys. 2018, 050 (2018).

[2] Haowei Xu, Boqiang Ma, Light speed variation from gamma ray burst GRB 160509A. Phys. Lett. B 760, 602–604 (2016).

[1] Haowei Xu, Boqiang Ma, Light speed variation from gamma-ray bursts. Astropart. Phys. 82, 72–76 (2016).