Phonon dispersion throughout the iron spin crossover in ferropericlase

Michel L. Marcondes, Fawei Zheng, Renata M. Wentzcovitch

Research output: Contribution to journalArticlepeer-review

7 Citations (Scopus)

Abstract

Ferropericlase (Fp), (Mg1-xFex)O, is the second most abundant phase in the Earth's lower mantle. At relevant pressure-temperature conditions, iron in Fp undergoes a high spin (HS), S = 2, to low spin (LS), S = 0, state change. The nature of this phenomenon is quite well understood now, but there are still basic questions regarding the structural stability and the existence of soft phonon modes during this iron state change. General theories exist to explain the volume reduction, the significant thermoelastic anomalies, and the broad nature of this HS-LS crossover. These theories make extensive use of the quasiharmonic approximation. Therefore, dynamical and structural stability is essential to their validity. Here, we investigate the vibrational spectrum of Fp throughout this spin crossover using ab initio density-functional theory +Usc calculations. We address vibrational modes associated with isolated and (second-)nearest-neighbor iron ions undergoing the HS-LS state change. As expected, acoustic modes of this solid solution are resilient, while optical modes are the most affected. We show that there are no soft phonon modes across this HS-LS crossover, and Fp is dynamically stable at all relevant pressures.

Original languageEnglish
Article number104112
JournalPhysical Review B
Volume102
Issue number10
DOIs
Publication statusPublished - Sept 2020
Externally publishedYes

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