Magnetic Domains in Rare-earth Element Weyl Semimetals RAlX (R = Rare-earth Element, X = Si, Ge)
ORAL
Abstract
Coupling between magnetic textures and carriers in Weyl semimetals is of a great interest as it can produce effective axial gauge fields and induce excess carriers near the domain walls. We use scanning SQUID microscopy to investigate magnetism in RAlX Weyl semimetals. [1–3] We report on progress of observing the dynamics of the magnetic domain walls under external magnetic field, which provides a better understanding of the interplay between local magnetic and electronic properties in Weyl systems. Successful manipulation of magnetic domains with magnetic and electric fields in Weyl materials may lead to development of new magnetic quantum devices.
[1] B. Xu, et al., Advanced Quantum Technologies 4, 2000101 (2021).
[2] B. Xu, et al., ArXiv:2105.14384 [Cond-Mat] (2021).
[3] H.-Y. Yang, et al., Phys. Rev. B 103, 115143 (2021).
[1] B. Xu, et al., Advanced Quantum Technologies 4, 2000101 (2021).
[2] B. Xu, et al., ArXiv:2105.14384 [Cond-Mat] (2021).
[3] H.-Y. Yang, et al., Phys. Rev. B 103, 115143 (2021).
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Publication: B. Xu, et al., Advanced Quantum Technologies 4, 2000101 (2021).<br>B. Xu, et al., ArXiv:2105.14384 [Cond-Mat] (2021).
Presenters
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Bochao Xu
University of Connecticut
Authors
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Bochao Xu
University of Connecticut
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Jacob Franklin
University of Connecticut
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Hung-Yu Yang
Boston College
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Xiaohan Yao
Boston College
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Fazel Tafti
Boston College
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Ilya Sochnikov
University of Connecticut