Faculty
Mainly engaged in the following research: 1. Single crystal preparation and characterization of heavy fermion and quantum spin liquid materials (mainly for rare earth compounds and magnetic-frustrated materials); Single crystal synthesis and characterization of two-dimensional magnetic materials (mainly for van der Waals materials). 2. Exploration of new quantum materials and research on low-temperature quantum critical behavior.
Research Interest
Single-crystal growth, Quantum criticality of strongly correlated systems
Education Background
2014/09-2019/06:Ph. D. in Condensed Matter Physics, Institute of physics, Chinese Academy of Sciences;
2010/09-2014/06:B. S. in Department of Physics, Zhejiang Sci-Tech University.
Working Experience
2021/12-present:Research Assistant Professor, Institute for Quantum Science and Engineering,,Southern University of Science and Technology;
2019/10-2021/11: Postdoc, University of Science and Technology of China/Southern University of Science and Technology.
Papers and Patents (*Co-first author, ?Corresponding author)
[1] J. Sheng*, L. Wang*, A. Candini, W. Jiang, L. Huang, B. Xi, J. Zhao, H.Ge, N. Zhao, Y. Fu, J. Ren, J. Yang, P. Miao, X. Tong, D. Yu, S. Wang, Q. Liu, M. Kofu, R. Mole, G. Biasiol, D. Yu?, I. A Zaliznyak?, J.-W. Mei?, and L. Wu?, Two-dimensional quantum universality in the spin-1/2 triangular-lattice quantum antiferromagnet Na2BaCo(PO4)2, Proc. Natl. Acad. Sci. U.S.A 119, e2211193119 (2022).
[2] X. Zhang*, L. Wang*, H. Su*, X. Xia, C. Liu, B. Lyu, J. Lin, M. Huang, Y. Cheng?, J.-W. Mei?, and Jun-Feng Dai?, Strain Tunability of Perpendicular Magnetic Anisotropy in van der Waals Ferromagnets VI3, Nano Lett. 22, 9891-9899 (2022).
[3] C. Zhang*, L. Wang*, Y. Gu, X. Zhang, X. Q. Xia, S. L. Jiang, L.-L. Huang, Y. Fu, C. Liu, J. H. Lin, X. L. Zou, H. M. Su?, J.-W. Mei?, and J.-F. Dai?, Hard ferromagnetic behavior in atomically thin CrSiTe3 flakes, Nanoscale, 14, 5851-5858 (2022).
[4] Y.?Y. Huang*, Y. Xu*, L. Wang*, C.?C. Zhao, C.?P. Tu, J.?M. Ni, L.?S. Wang, B.?L. Pan, Y. Fu, Z. Y. Hao, C. Liu, J.-W. Mei?, and S.?Y. Li?, Heat Transport in Herbertsmithite:Can a Quantum Spin Liquid Survive Disorder, Phys. Rev. Lett. 127, 267202 (2021).
[5] Y. Fu*, J. Chen*, J. M. Sheng*, H. Ge, L. L. Huang, C. Liu, Z. X. Wang, Z. W. Ouyang, X. B. Chen, D. P. Yu, S. M. Wang, L. S. Wu, H.-F. Li?, L. Wang?, and J.-W. Mei?, Dzyaloshinskii-Moriya anisotropy effect on field-induced magnon condensation in the kagome antiferromagnet α-Cu3.26Mg0.74(OH)6Br2, Phys. Rev. B 104, 245107 (2021).
[6] Y. Fu, L. L Huang, X. F. Zhou, J. Chen, X. Y. Zhang, P. Y. Chen, S. M. Wang, C. Liu, D. P. Yu, H.-F. Li?, L. Wang?, and J.-W. Mei?, LnCu3(OH)6Cl3(Ln = Gd, Tb, Dy): Heavy Lanthanides on Spin-1/2 Kagome Magnets, Chin. Phys. B 30, 100601 (2021). (Highlight)
[7] C. Zhang*, Y. Gu*, L. Wang*, L.-L. Huang, Y. Fu, C. Liu, S. Wang?, H. Su, J.-W. Mei?, X. Zou?, and J.-F. Dai?, Pressure-Enhanced Ferromagnetism in Layered CrSiTe3 Flakes, Nano Lett. 21, 7946-7952 (2021).
[8] Q. Liu*, L. Wang*, Y. Fu, X. Zhang, L. Huang, H. Su, J. Lin, X. Chen, D. Yu, X. Cui, J.-W. Mei?, and J.-F. Dai?, Magnetic order in XY-type antiferromagnetic monolayer CoPS3 revealed by Raman spectroscopy, Phys. Rev. B 103, 235411 (2021).
[9] G. M. Li, L.-L. Huang, X. B. Chen, C. Liu, S. H. Pei, X. W. Wang, S. M. Wang, Y. S. Zhao, D. P Yu, L. Wang?, F. Ye, J.-W. Mei?, and M. Y. Huang?, Probing the continuum scattering and magnetic collapse in single-crystalline a-Li2IrO3 by Raman spectroscopy, Phys. Rev. B 101, 174436 (2020).
[10] S. H. Pei*, L.-L. Huang*, G. M. Li, X. B. Chen, B. Xi, X. W. Wang, Y. G. Shi, D. P. Yu, C. Liu, L. Wang?, F. Ye, M. Y. Huang?, and J.-W. Mei?, Magnetic Raman continuum in single-crystalline H3LiIr2O6, Phys. Rev. B 101, 201101 (2020).
[11] C. Li*, X. X. Wu*, L. Wang*, D. Liu, Y. Cai, .Y Wang, Q. Gao, C. Song, J. Huang, C. Dong, J. Liu, P. Ai, H. Luo, C. Yin, G. Liu, Y. Huang, Q. Wang, X. Jia, F. Zhang, S. Zhang, F. Yang, Z. Wang, Q. Peng, Z. Xu, Y. Shi, J.Hu, T. Xiang, L. Zhao?, and X. J. Zhou?, Spectroscopic Evidence for an Additional Symmetry Breaking in the Nematic State of FeSe Superconductor, Phys. Rev. X 10, 031033 (2020).
[12] S. H. Pei*, J. K. Tang*, C. Liu, J.-W. Mei, Z. L. Guo, B. B. Lyu, N. P. Zhang, Q. L. Huang, D. P. Yu, L. Huang, J. H. Lin, Le Wang?, and M. Y. Huang?, Orbital-fluctuation freezing and magnetic-nonmagnetic phase transition in a-TiBr3, Appl. Phys. Lett. 117, 133103 (2020).
[13] L. Wang, C. X. Wang, Z. Y. Liu, J.-G. Cheng, S. S. Miao, Y. T. Song, Y. G. Shi?, and Y.-F. Yang?, Magnetic phase diagrams of the ferromagnetic Kondo lattice CePd2Al8, Phys. Rev. B 100, 085122 (2019).
[14] H. Miao*?, T. T Zhang*, L. Wang*, D. Meyers, A. H. Said, Y. L Wang, Y. G. Shi, H. M. Weng, Z. Fang, and M. P. M. Dean?, Observation of Double Weyl Phonons in Parity-Breaking FeSi, Phys. Rev. Lett. 121, 035302 (2018).
[15] L. Wang*, Y. J. Xu*, M. Yang, Q. Q. Wang, C. X. Wang, Y. T. Song, Y. G. Shi?, and Y.-F. Yang?, Anisotropic hybridization in the new Kondo lattice compound CeCoInGa3, Phys. Rev. B 98, 115119 (2018).
[16] L. Wang*, Z. M. Fu*, J. P. Sun, M. Liu, W. Yi, C. Y. Yi, Y. K. Luo, Y. M. Dai, G. T. Liu, Y. Matsushita, K. Yamaura, L. Lu, J.-G. Cheng, Y.-F. Yang?, Y. G. Shi?, and J. L. Luo, Heavy fermion behavior in the quasi-one-dimensional Kondo lattice CeCo2Ga8, npj Quantum Materials 2, 36 (2017).