Role of spin-phonon and electron-phonon interactions in phonon renormalization of (Eu1-xBix)2Ir2O7 across the metal-insulator phase transition: Temperature-dependent Raman and X-ray studies
Abstract
We report temperature-dependent Raman scattering and X-ray diffraction studies of pyrochlore iridates, (Eu1-xBix)2Ir2O7, for x=0, 0.02, 0.035, 0.05 and 0.1. The temperature variation in Raman experiments spans from 4 K to 300 K, covering the metal-insulator phase transition accompanied by paramagnetic to all-in/all-out (AIAO) spin ordering (TN). These systems also show a Weyl semi-metal (WSM) phase at low temperatures (below ~50 K). We show that the Ir-O-Ir bond bending mode, A1g (510 cm-1), shows anomalous softening in the magnetically ordered AIAO state, arising primarily from the spin-phonon interaction due to the phonon-modulation of the Dzyaloshinskii-Moriya (DM) spin-exchange interaction. The two stretching modes, T2g1 (307 cm-1) and T2g2 (382 cm-1) harden significantly in the magnetic insulating phase. The T2g phonons also show anomalous temperature dependence of their mode frequencies, hitherto unreported, due to strong electron-phonon coupling. The signatures of the WSM state are observed in phonon renormalization below 50 K due to strong electron-phonon interaction. Our experimental results establish strong magneto-elastic coupling below TN and significant electron-phonon interactions in the metallic phase above TN as well as in the low-temperature WSM state.
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