Title :
Enhanced B2 Ordering of FeRh Thin Films Using B2 NiAl Underlayers
Author :
Kande, Dhishan ; Pisana, S. ; Weller, Dieter ; Laughlin, David E. ; Jian-Gang Zhu
Author_Institution :
Dept. of Mater. Sci. & Eng., Carnegie Mellon Univ., Pittsburgh, PA, USA
Abstract :
B2-ordered FeRh thin films undergo a first-order magnetic transition from an antiferromagnetic (AFM) state at low temperature to a ferromagnetic (FM) state above 350 K and reverse back on cooling with a finite hysteresis. This property makes them very attractive for use in temperature-controlled exchange coupling layers for heat-assisted magnetic recording. In order to be used as an exchange coupling layer, the goal is to fabricate ultra-thin films of FeRh that show reversible AFM-FM switching. For thinner films grown on MgO substrates, there exists an FM signal below the AFM-FM transition temperature. It is demonstrated that there is a direct correlation between the low-temperature FM fraction and the extent of atomic ordering. Based on this observation, the enhanced atomic order in FeRh grown on NiAl underlayers is shown to result in bulk-like AFM-FM switching, especially for the thinner films.
Keywords :
antiferromagnetic materials; exchange interactions (electron); ferromagnetic materials; ferromagnetic-antiferromagnetic transitions; iron alloys; magnetic hysteresis; magnetic switching; magnetic thin films; rhodium alloys; FeRh; MgO; MgO substrates; NiAl; antiferromagnetic state; cooling; exchange coupling layers; ferromagnetic state; finite hysteresis; first-order magnetic transition; heat-assisted magnetic recording; reversible switching; ultrathin films; Frequency modulation; Iron; Lattices; Magnetic recording; Substrates; Switches; Iron alloys; magnetic layered films; thermomagnetic recording; thin films;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2011.2157963
