Enhanced annealing stability of ferrimagnetic Tb/FeCo multilayers

• Published in: AIP advances Vol. 11; no. 8; pp. 085112 - 085112-8
• Main Authors: Heigl, Michael, Mangkornkarn, Chayangkoon, Ullrich, Aladin, Krupinski, Michal, Albrecht, Manfred
• Format: Journal Article
• Language: English
• Published: Melville American Institute of Physics 01.08.2021; AIP Publishing LLC
• Subjects: Annealing; Magnetic anisotropy; Magnetic properties; Magnetic saturation; Multilayers; Short range order; Thickness; Thin films
• ISSN: 2158-3226; 2158-3226
• DOI: 10.1063/5.0055817

In this study, we have investigated amorphous 20-nm-thick Tb/Fe80Co20 multilayer samples with different individual layer thicknesses and their corresponding alloy counterpart. In particular, the structural and magnetic properties were analyzed upon post-annealing. Up to a certain critical thickness of the individual layers in the multilayer, no significant difference between the multilayers and the alloy is observed in their as-deposited states, which indicates the importance of interfacial intermixing. With a further increase in thicknesses of the individual layers, regions with significant larger Tb content emerge, resulting in a reduced effective Tb moment. The loss in perpendicular magnetic anisotropy upon annealing seems to be delayed for multilayers with thin individual layers compared to the alloy sample. We contribute this behavior to the underlying anisotropic short-range order enforced by the multilayer structure, which hinders the structural relaxation process. At higher temperatures, the multilayers strongly intermix and Fe and Co diffuse through the capping layer. This process leads to a strong enhancement of the saturation magnetization at a certain annealing temperature, due to the formation of separated FeCo and Tb-rich TbFeCo alloy layers, until the sample gets oxidized.