Magnetic Properties Across Metal to Insulator Transitions
Sala 300, Viernes 10 de Enero a las 10:30
Magnetic Properties Across Metal to Insulator Transitions
J. de la Venta
Colorado State University
Department of Physics
Controlling the magnetic properties of ferromagnetic (FM) thin films without magnetic fields is an on-going challenge in condensed matter physics with multiple technological implications. External stimuli and proximity effects are the most used methods to control the magnetic properties. An interesting possibility arises when ferromagnets are in proximity to materials that undergo a metal-insulator (MIT) and structural phase transition (SPT).
Canonical examples of materials that undergo MIT and SPT are the vanadium oxides (VO2 and V2O3). VO2 undergoes a metal/rutile to an insulator/monoclinic phase transition at 340 K. In V2O3 the transition at 160 K is from a metallic/rhombohedral to an insulating/ monoclinic phase. We have investigated the magnetic properties of different combinations of ferromagnetic metals and vanadium oxide thin films.
In a first example I will show that the stress and phase separation associated with the structural transition produce large changes in the magnetic properties of films in the proximity of the oxides. In a second example I will show that the creation of a Fe3O4 interface in Permalloy (Ni80Fe20) / V2O3 bilayers gives rise to exchange bias and a vertical shift in the magnetization. Both effects are due to the change in the easy axis of the magnetization across the Fe3O4 Verwey transition.
