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W4386810510 abstract "This study explores the identification of sample inhomogeneity via magnetic quantum oscillations analysis in semimetal NbSb2. By doping Bi and Cr, we obtained a homogenous Bi-doped sample and an inhomogeneous Cr-doped sample, whose homogeneity was confirmed by comparing the magnetic quantum oscillation before and after grinding the samples. The magnetic quantum oscillations in the inhomogeneous sample exhibited a distinct phase shift and unusual field-dependent amplitude, believed to result from a non-uniform Fermi energy. The analysis of the magnetic quantum oscillations demonstrated that the homogeneous Bi-doped sample can be interpreted by the symmetric and Lorentzian effective Fermi energy distribution, while the inhomogeneous Cr-doped sample exhibited an asymmetric distribution, illustrating an unconventional violation of the Lifshitz-Kosevich formula. This research provides a novel method for identifying material inhomogeneity and mitigating potential misinterpretations of magnetic quantum oscillations' unusual phase, commonly seen as a nontrivial Berry phase indicator in topological materials studies." @default.
W4386810510 created "2023-09-18" @default.
W4386810510 creator A5045896881 @default.
W4386810510 creator A5089894903 @default.
W4386810510 date "2023-12-01" @default.
W4386810510 modified "2023-10-18" @default.
W4386810510 title "Inhomogeneity identification by measuring magnetic quantum oscillations" @default.
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W4386810510 doi "https://doi.org/10.1016/j.physb.2023.415321" @default.
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