Pressure-induced Phonon Softenings and the Structural and Magnetic Transitions in CrO2

Abstract

To investigate the pressure-induced structural transitions of chromium dioxide (CrO2), phonon dispersions and total energy band structures are calculated as a function of pressure. The first structural transition has been confirmed at P≈ 10 GPa from the ground state tetragonal CrO2 (t-CrO2) of rutile type to orthorhombic CrO2 (o-CrO2) of CaCl2 type. The half-metallic property is found to be preserved in o-CrO2. The softening of Raman-active B1g phonon mode, which is responsible for this structural transition, is demonstrated. The second structural transition is found to occur for P≥ 61.1 GPa from ferromagnetic (FM) o-CrO2 to nonmagnetic (NM) monoclinic CrO2 (m-CrO2) of MoO2 type, which is related to the softening mode at q = R(1/2,0,1/2). The third structural transition has been newly identified at P= 88.8 GPa from m-CrO2 to cubic CrO2 of CaF2 type that is a FM insulator.