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Thorough investigations of electronic structure are crucial for discovering new topological materials and understanding their electron transport properties. Here, we discuss the electronic structure of two disilicides, WSi2 and MoSi2, revealing type-II Dirac states and the Fermi surface topology of both materials [1]. An excellent agreement was found between the results obtained from first-principles calculations and the experimental results obtained from the analysis of quantum oscillation phenomena. Additionally, the analysis of Shubnikov-de Haas oscillations uncovered the occurrence of the Shoenberg effect and the spin-zero effect. We observed oscillations of magnetostriction in MoSi2 and confirmed that they can be a comprehensive technique for mapping Fermi surfaces in semimetals. The magnetotransport properties of both disilicides can be understood in the scope of nearly perfect carrier compensation, and remarkably large anisotropic magnetoresistance can be elucidated by considering the anisotropic Fermi surface. The future directions of the research on WSi2, MoSi2 and isostructural materials is also discussed.
[1] O. Pavlosiuk, P. W. Swatek, J.-P. Wang, P. Wiśniewski and D. Kaczorowski, "Giant magnetoresistance, Fermi-surface topology, Shoenberg effect, and vanishing quantum oscillations in the type-II Dirac semimetal candidates MoSi2 and WSi2", Phys. Rev. B 105, 075141 (2022).
Wykład będzie wygłoszony w języku polskim.