Revisiting the symmetry and optical phonons of altermagnetic α-MnTe
Abstract
Using infrared (IR) and Raman spectroscopies combined with high-resolution x-ray diffraction, we address several controversial aspects of altermagnetic α-MnTe. We show that mechanical stress applied to crystals of this material causes a drastic broadening of Bragg peaks that conceals signatures of additional phases present in the sample. Indeed, spatially resolved Raman spectroscopy reveals that the modes around 175 cm-1 often reported in α-MnTe are not reproducible across different positions and samples and originate from the secondary phase of MnTe2. By combining spectroscopic probes with ab initio calculations, we establish the IR-active optical phonon of α-MnTe around 155 cm-1 (E1u) and the Raman-active optical phonon around 100 cm-1 (E2g) at room temperature. Two intense Raman modes around 120 and 140 cm-1 are shown to be intrinsic, even though they can not be assigned to Γ-point optical phonons. These modes couple to magnetic order in α-MnTe and also to the transient reflectivity resulting in coherent oscillations. Both 6-fold rotation symmetry and inversion symmetry are preserved in α-MnTe within our experimental resolution.
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