Equation of state and structural transition at high hydrostatic pressures in the BiFeO3 crystal

Change in the crystal structure of the BiFeO3 multiferroic at high pressures up to 70 GPa in a diamond anvil cell has been studied by the method of synchrotron x-ray diffraction at room temperature. The experiment has been carried out under hydrostatic conditions with helium as a pressure-transferring medium. An anomaly has been observed in the behavior of the structural parameters at pressures P (c) approximate to 40-50 GPa. This anomaly correlates with the effect of the magnetic collapse of iron moments revealed in this pressure range. It has been found that the bulk compression modulus is equal to B (0) = (75.5 +/- 15.5) GPa in the interval 0 < P < P (c) and is almost quadrupled to a value of B = (292 +/- 9) GPa in the interval P > P (c). When the pressure decreases, the behavior of the structural parameters is completely reversible in correlation with the reversibility of the magnetic transition. The diffuseness of the structural transition in pressure is explained by thermal fluctuations between the high-and low-spin states of Fe3+ ions in the transition region.