Title :
Evidence of Coexistence of Ferromagnetic and Antiferromagnetic Phases in Nearly Equiatomic FeRh
Author :
Kumar, Harish ; Fantini, Marcia C. A. ; Cornejo, Daniel R.
Author_Institution :
Inst. de Fis., Univ. de Sao Paulo, São Paulo, Brazil
Abstract :
Fe100-xRhx films were deposited on Si substrates with various Rh concentrations (conc.) (x) ~ 32 to 52% at. All the films showed the in-plane magnetic anisotropy due to the thin-film like structure i.e., shape anisotropy. For Rh conc. up to ~ 42% at., the films exhibit a single ferromagnetic (α\´) phase. However, for Rh conc. (x) > 42% at., there exists a mixture of ferromagnetic (α\´) and antiferromagnetic (α") phase. Nearly equiatomic samples ( x ~ 48 to 52% at.) showed abrupt enhancement in coercivity and a broad thermal hysteresis. This behavior is consistent with the presence of a mixture of FM and AFM phase. Thermal first-order-reversal-curves analysis showed that the AFM to FM phase transition is restricted to a region with FWHM of ~ T = 40 K, in spite of the mentioned broad thermal hysteresis.
Keywords :
antiferromagnetic materials; coercive force; ferromagnetic materials; ferromagnetic-antiferromagnetic transitions; iron alloys; magnetic anisotropy; magnetic hysteresis; magnetic thin films; metallic thin films; rhodium alloys; sputter deposition; FWHM; Fe100-xRhx; Si; coercivity; equiatomic samples; ferromagnetic-antiferromagnetic phase transition; in-plane magnetic anisotropy; shape anisotropy; thermal first-order-reversal-curves analysis; thermal hysteresis; thin-film like structure; Frequency modulation; Iron; Magnetic hysteresis; Magnetization; Perpendicular magnetic anisotropy; Substrates; FeRh films; first-order-reversal-curves (FORC) analysis; thermal first-order-reversal-curves; thermal hysteresis;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2013.2262040
