Author:
Warren J. L.,Barton C. W.,Bull C.,Thomson T.
Abstract
AbstractThe equiatomic alloy FeRh is of great scientific and technological interest due its highly unusual first-order antiferromagnetic (AF) to ferromagnetic (FM) phase transition. Here we report an exploration of the interplay between topography and phase evolution with a comprehensive magnetic force microscopy study of nominal 50 nm thick FeRh thin films and subtractively patterned wires of width 0.2 µm–2 µm. In continuous films where the surface morphology had not been optimised for smoothness, the topographical variation was observed to dominate the distribution of the magnetic transition temperatures and dictates the nucleation and growth of the magnetic phases. This observation was repeated for patterned elements, where the effects of surface morphology were more significant than those of spatial confinement. These results have clear implications for future studies of low-dimensional FeRh films, as surface topography must be considered when analysing and comparing the transition behaviour of FeRh thin films.
Publisher
Springer Science and Business Media LLC
Reference26 articles.
1. Fallot, M. Les alliages du fer avec les metaux de la famille du platine, vol. 11, p. 291, (1938).
2. Fallot, M. & Hocart, R. Sur l’apparition du ferromagntisme par lvation de temprature dans des alliages de fer et de rhodium. Rev. Sci 77, 498 (1939).
3. Muldawer, L. & de Bergevin, F. Antiferromagnetic-Ferromagnetic Transformation in FeRh. J. Chem. Phys. 35, 1904 (1961).
4. Kouvel, J. S. & Hartelius, C. C. Anomalous Magnetic Moments and Transformations in the Ordered Alloy FeRh. J. Appl. Phys. 33, 1343 (1962).
5. Vinokurova, L. I., Vlasov, A. V. & Pardavi-Horváth, M. Pressure Effects on Magnetic Phase Transitions in FeRh and FeRhIr Alloys. Phys. Stat. Sol 78, 353 (1976).
Cited by
13 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献