# Emergent Vibronic Excitations in the Magnetodielectric Regime of   $\text{Ce}_2\text{O}_3$: Raman Scattering Studies

**Authors:** A. Sethi, J. E. Slimak, T. Kolodiazhnyi, and S. L. Cooper

arXiv: 1903.04505 · 2019-05-08

## TL;DR

This study uncovers emergent vibronic modes in Ce₂O₃ through Raman scattering, revealing field-tunable coupling between vibrational and electronic states that influence its magnetodielectric properties.

## Contribution

It demonstrates the presence of vibronic excitations in Ce₂O₃ and links their behavior to the material's magnetodielectric response, highlighting a novel coupling mechanism.

## Key findings

- Vibronic modes emerge in Ce₂O₃ below T_N.
- Vibronic coupling is enhanced in the Néel state.
- Magnetic field modulates vibronic energies and intensities.

## Abstract

The strong coupling between spin, lattice and electronic degrees of freedom in magnetic materials can produce interesting phenomena, including multiferroic and magnetodielectric (MD) behavior, and exotic coupled excitations, such as electromagnons. We present a temperature- and magnetic-field-dependent inelastic light (Raman) scattering study that reveals the emergence of vibronic modes, i.e., coupled vibrational and crystal-electric-field (CEF) electronic excitations, in the unconventional rare-earth MD material, $\text{Ce}_2\text{O}_3$. The energies and intensities of these emergent vibronic modes are indicative of enhanced vibronic coupling and increased modulation of the dielectric susceptibility in the N\'eel state ($T_\text{N} \approx 6.2\,\text{K}$). The field-dependences of the energies and intensities of these vibronic modes are consistent with a decrease of both the vibronic coupling and the dielectric fluctuations associated with these modes below $T_\text{N}$. These results suggest a distinctive mechanism for MD behavior in $\text{Ce}_2\text{O}_3$ that is associated with a field-tunable coupling between CEF and phonon states.

## Full text

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## Figures

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## References

28 references — full list in the complete paper: https://tomesphere.com/paper/1903.04505/full.md

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Source: https://tomesphere.com/paper/1903.04505