Using a highly stoichiometric magnetite, the pressure-induced phase transitions of Fe3O4 have been revisited here by performing Fe K-edge X-ray absorption and magnetic circular dichroism measurements up to P = 65 GPa at room temperature and 71 GPa at 20 K. We have observed a structural transition at around 27 GPa from magnetite to a high-pressure phase h-Fe3O4 with the loss of the net ordered magnetic moments for both temperatures. The orthorhombic CaTi2O4-type (Bbmm) structure of the high-pressure phase h-Fe3O4 has been determined by combining experimental studies and theoretical simulations of the Fe K-edge X-ray absorption near-edge structure spectra. The long-time discussed pressure induced spin crossover, and inverse to normal spinel s...
Magnetite, Fe$_3$O$_4$, is the oldest known magnetic mineral and archetypal mixed-valence oxide. Des...
The spin state of Fe in structure of minerals relevant for the lower mantle mineralogy, is known to ...
Greigite (Fe3S4), isostructural with Fe3O4 has recently attracted great scientific interests from ma...
Using a highly stoichiometric magnetite, the pressure-induced phase transitions of Fe3O4 have been r...
Using a highly stoichiometric magnetite, the pressure-induced phase transitions of Fe3O4 have been r...
International audienceUsing a highly stoichiometric magnetite, the pressure-induced phase transition...
Using a highly stoichiometric magnetite, the pressure-induced phase transitions of Fe3O4 have been r...
International audienceThe structural properties of magnetite Fe3O4 under pressure have been extensiv...
International audienceWe have investigated the high-pressure behavior of Fe3O4 by in situ X-ray diff...
出版社版We have measured the Mossbauer spectra of magnetite (Fe3O4) under a pressure of up to 18 GPa at ...
International audienceWe have investigated the high-pressure behavior of Fe3O4 by in situ X-ray diff...
We have measured the Mossbauer spectra of magnetite (Fe3O4) under a pressure of up to 18 GPa at room...
Under the terms of the Creative Commons Attribution License 3.0 (CC-BY).Room temperature Fe and Co K...
Structural properties of magnetite under a uniaxial compression have been investigated based on firs...
The pressure evolution of the local structure of Fe2O3 hematite has been determined by extended x-ra...
Magnetite, Fe$_3$O$_4$, is the oldest known magnetic mineral and archetypal mixed-valence oxide. Des...
The spin state of Fe in structure of minerals relevant for the lower mantle mineralogy, is known to ...
Greigite (Fe3S4), isostructural with Fe3O4 has recently attracted great scientific interests from ma...
Using a highly stoichiometric magnetite, the pressure-induced phase transitions of Fe3O4 have been r...
Using a highly stoichiometric magnetite, the pressure-induced phase transitions of Fe3O4 have been r...
International audienceUsing a highly stoichiometric magnetite, the pressure-induced phase transition...
Using a highly stoichiometric magnetite, the pressure-induced phase transitions of Fe3O4 have been r...
International audienceThe structural properties of magnetite Fe3O4 under pressure have been extensiv...
International audienceWe have investigated the high-pressure behavior of Fe3O4 by in situ X-ray diff...
出版社版We have measured the Mossbauer spectra of magnetite (Fe3O4) under a pressure of up to 18 GPa at ...
International audienceWe have investigated the high-pressure behavior of Fe3O4 by in situ X-ray diff...
We have measured the Mossbauer spectra of magnetite (Fe3O4) under a pressure of up to 18 GPa at room...
Under the terms of the Creative Commons Attribution License 3.0 (CC-BY).Room temperature Fe and Co K...
Structural properties of magnetite under a uniaxial compression have been investigated based on firs...
The pressure evolution of the local structure of Fe2O3 hematite has been determined by extended x-ra...
Magnetite, Fe$_3$O$_4$, is the oldest known magnetic mineral and archetypal mixed-valence oxide. Des...
The spin state of Fe in structure of minerals relevant for the lower mantle mineralogy, is known to ...
Greigite (Fe3S4), isostructural with Fe3O4 has recently attracted great scientific interests from ma...