Magnetic structure of CeGaGe
ORAL
Abstract
CeGaGe is a candidate Weyl semimetal material that crystallizes in the noncentrosymmetric space group 109 (I41md). Depending on growth conditions, we find that samples can be driven into a structure with symmetry given by space group 76 (P41) or its enantiomer, space group 78 (P43), below T=100 K [1]. In all samples, there is a clear phase transition into a magnetically ordered state at TC≈5.5 K seen in magnetization and magnetic susceptibility, specific heat, and resistivity [2].
We present the results of a neutron powder diffraction experiment that determines the magnetic structure for CeGaGe when grown using the flux technique. We analyze the scattering data assuming each of the two closely related crystal symmetries, space group 109 and space group 78. The ordered magnetic structures determined by assuming the two different space groups are significantly different, but the structure determined in either crystal symmetry agrees reasonably well with previously reported magnetometry data [2].
[1] L. Scanlon et al., in prep. (2024)
[2] D. Ram, S. Malick, Z. Hossain, and D. Kaczorowski, Phys. Rev. B 108, 024428 (2023).
We present the results of a neutron powder diffraction experiment that determines the magnetic structure for CeGaGe when grown using the flux technique. We analyze the scattering data assuming each of the two closely related crystal symmetries, space group 109 and space group 78. The ordered magnetic structures determined by assuming the two different space groups are significantly different, but the structure determined in either crystal symmetry agrees reasonably well with previously reported magnetometry data [2].
[1] L. Scanlon et al., in prep. (2024)
[2] D. Ram, S. Malick, Z. Hossain, and D. Kaczorowski, Phys. Rev. B 108, 024428 (2023).
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Presenters
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Liam J Scanlon
- University of Kentucky
- University of Kentucky department of Physics and Astronomy