Possible Half Metallic Antiferromagnetism in a Double Perovskite Material with Strong Spin-Orbit Couplings

Abstract

Using the first-principles density functional approach, we investigate a material Pr2MgIrO6 (PMIO) of double perovskite structure synthesized recently. According to the calculations, PMIO is a magnetic Mott-Hubbard insulator influenced by the cooperative effect of spin-orbit coupling (SOC) and Coulomb interactions of Ir-5d and Pr-4f electrons, as well as the crystal field. When Pr is replaced with Sr gradually, the system exhibits half metallic (HM) states desirable for spintronics applications. In [Pr2-xSrxMgIrO6]2, HM antiferromagnetism (HMAFM) with zero spin magnetization in the unit cell is obtained for x=1, whereas for x=0.5 and 1.5 HM ferrimagnetism (HMFiM) is observed with μ tot=3μ B and μ tot=-3μ B per unit cell respectively. It is emphasized that the large exchange splitting between spin-up and spin-down bands at the Fermi level makes the half metallicity possible even with strong SOC.