TY - JOUR AU - Kristin A Persson AU - Gerbrand Ceder AU - Dane Morgan AB -

Pressure-induced spin transitions of the Fe2+ and the Mn2+ ions in the FexMn1−xS2 system are investigated using calculations based on density-functional theory within the generalized gradient approximation GGA +U formalism. MnS2 shows a transition from a high-spin to a low-spin state at high pressure. The transition pressures decrease with increasing Fe content, and at high Fe content, transition pressures approaching zero are obtained. However, the volume change at the transition remains remarkably constant as long as both Fe and Mn participate.

BT - Physical Review B DA - 03/2006 LA - eng M1 - 11 N2 -

Pressure-induced spin transitions of the Fe2+ and the Mn2+ ions in the FexMn1−xS2 system are investigated using calculations based on density-functional theory within the generalized gradient approximation GGA +U formalism. MnS2 shows a transition from a high-spin to a low-spin state at high pressure. The transition pressures decrease with increasing Fe content, and at high Fe content, transition pressures approaching zero are obtained. However, the volume change at the transition remains remarkably constant as long as both Fe and Mn participate.

PY - 2006 T2 - Physical Review B TI - Spin transitions in the FexMn1-xS2 system VL - 73 ER -