Mössbauer study of magnetism in an amorphous Fe40B60 sputtered film

Blum, N. A.

doi:10.1063/1.330193

Cited by 2 publications

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Magnetic properties of metallic glasses

Durand¹

1983

Topics in Applied Physics

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This chapter is restricted to fundamental magnetic properties of liquidquenched amorphous alloys. Emphasis is placed on the interplay between the atomic structure and the magnetic properties. An introductory section presents the aim of the chapter together with some preliminary remarks about the possible influence of the sample size and of the fabrication technique on the magnetic properties of the amorphous materials. The first part analyses those magnetic measurements which can yield some structural information on metallic glasses (MG's). Some knowledge about the average symmetry of the first atomic shell around a reference atom is obtained through local measurements of the electric-field gradient and through bulk magnetic studies of the crystal field effects in amorphous alloys containing rare-earth (RE) elements. Medium-range fluctuations are evidenced by both bulk magnetic properties and hyperfine field distribution measurements in ferromagnetic MG's.The second part discusses the influence of structural disorder on magnetic properties of transition-metal (TM) base MG's. The models (localized, itinerant) commonly used to describe TM magnetism are schematically presented along with the main physical ingredients on which structural disorder can play a role. As for MG's which do not exhibit a long-range, homogeneous magnetic order, three points are given special attention, namely, the inhomogeneous character of the appearance of magnetism, the RKKY interaction in MG's and the reentrant magnetism behaviour. As for ferromagnetic MG's based on TM, we summarize the data on zero-temperature properties and then, the data at finite temperature, namely, the magnetic excitations, the Invar properties and the critical phenomena.The third part deals with RE base MG's, analysing first the magnetic properties of MG's containing S state RE ions (Gd, Eu2+). Then, the case of non-S state RE ions, especially those with intermediate valence, is shortly discussed. Finally, preliminary data on uranium based MG's and on TM based MG's containing RE additives are listed. Brief remarks conclude the chapter. BackgroundThe historical development, during the last two decades, of the research effort on magnetic properties of metallic glasses (MG's) seems to have been spurred by three major incentives. Early studies were concerned mainly with purely

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