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Berlin 2018 – scientific programme

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MA: Fachverband Magnetismus

MA 4: Spin structures and magnetic phase transitions

MA 4.2: Talk

Monday, March 12, 2018, 09:45–10:00, EB 202

Magnetism in High-Pressure Iron — •Tommaso Gorni and Michele Casula — IMPMC, Univeristé Pierre et Marie Curie, Paris

Due to the high pressures involved, the vast majority of iron contained in the Earth’s interior, from the upper mantle to the lower core, is found in the so-called ε-Fe phase, displaying an hcp structure and a lack of macroscopic magnetization. However, in the pressure range of 15-30 GPa, ε-Fe presents several fingerprints of an underlying magnetic state, among which superconductivity, believed to be mediated by antiferromagnetic fluctuations. First-principles simulations of paramagnetic and antiferromagnetic states both reproduce the experimental equation of state with a similar level of accuracy, whereas experimental evidence could not detect any magnetic splitting via Mössbauer spectroscopy on the one side, but suggested antiferromagnetic order via an anomalous Raman splitting on the other. Here, we perform a thorough re-investigation of the ε-Fe antiferromagnetic states by Density Functional Theory calculations, and we map our results onto a spin model that we solve via a classical Monte Carlo approach. We finally propose a new scenario where the long-range magnetic ordering is hampered by spins fluctuating in both amplitude and direction, as suggested by our first-principles calculations. Our results are supported by some very recent X-ray Emission Spectroscopy and Neutron Scattering data.

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