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Presented By: Interdisciplinary QC/CM Seminars

Special Interdisciplinary QC-CM Seminar | Unveiling the Nexus Between Real and Momentum Space Skyrmion in Correlated Systems

Shizeng Lin (Los Alamos National Laboratory)

In this talk, I will explore the emergent physics resulting from the complex interaction between real-space and momentum-space topology in strongly correlated quantum materials, with a particular focus on skyrmions. Using quantum Hall and quantum spin Hall insulators as key examples, I will explain the mechanisms behind skyrmion formation through electron doping in these correlated and gapped topological systems. We provide a detailed analysis of the phase diagrams and the formation of skyrmion lattices within the Kane-Mele-Hubbard model, supported by calculations from both the unrestricted real-space Hartree-Fock and density matrix renormalization group methods. In these systems, the doped electron and skyrmion form a composite object whose density is governed by the doped electron density. This electron-skyrmion bound state is stabilized by the coupling between the orbital magnetization of the Chern band and the emergent magnetic flux generated by the skyrmion. Moreover, we find that doping induces quantum anomalous Hall crystals, which exhibit quantized Hall conductance and broken translational symmetry. Our theory offers an intrinsic mechanism for the experimentally observed robust quantum anomalous Hall insulator over an extended doping range near a filling factor of ν = 1 in twisted transition metal moiré superlattices.

Reference: Miguel Gonçalves and Shi-Zeng Lin, arXiv:2407.12198

Short-bio:
Shizeng Lin completed his Ph.D. at the National Institute for Materials Science and the University of Tsukuba in Japan. After earning his Ph.D., he joined Los Alamos National Laboratory (LANL) in 2011, initially as a postdoctoral researcher in the Theoretical Division. In 2014, he was appointed as a scientist at LANL. He is also currently affiliated with the Center for Integrated Nanotechnology at LANL, one of the five Nanoscale Science Research Centers funded by the U.S. Department of Energy. Lin’s research primarily focuses on theoretical studies of novel quantum materials, with a particular emphasis on systems characterized by correlation and topology. He received the LANL Laboratory-Directed Research and Development Program Early Career Award in 2017 and the LANL Fellows Prize for Outstanding Research in 2024.

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