Colossal pressure-induced softening in scandium fluoride

Abstract

The counter-intuitive phenomenon of pressure-induced softening in materials is likely to be caused by the same dynamical behaviour that produces negative thermal expansion. Through a combination of molecular dynamics simulation on an idealised model and neutron diffraction at variable temperature and pressure, we show the existence of extraordinary and unprecedented pressure-induced softening in the negative thermal expansion material scandium fluoride, ScF3, with values of the pressure-derivative of the bulk modulus B, B = ∂ B / ∂ P, reaching as low as -40 1.