Study of the low-field irreversibility line in the transverse component spin-glass phase of the amorphous Fe90Zr10 alloy

Danilo R. Ratkovski, Pablo R.T. Ribeiro, Fernando Luis de Araujo Machado, Ernesto P. Raposo, Earl Dan Dahlberg

Research output: Contribution to journalArticlepeer-review

Abstract

Abstract: Amorphous FexZr100−x alloys display a complex magnetic phase diagram, particularly in the range 89% ≲ x ≲ 93% in which the phase transition from the paramagnetic to a soft ferromagnetic (FM) state at a critical temperature Tc precedes a second transition at Txy < Tc to a transverse spin-glass (SG) phase, with frozen spin components transverse to the magnetization. The softness of the FM phase and the coexistence of FM and SG orderings complicate exploring the low-temperature and low-field critical properties of the glassy transition. Here we study the irreversibility Almeida-Thouless (AT) line that marks the onset of the transverse SG phase in the Fe90Zr10 alloy in the low-field regime up to H = 60 Oe. While ZFC measurements give rise to an AT exponent ϕ = 4.6, similar to that of another amorphous FM compound with random local anisotropy, the induction of magnetic shiftings upon cooling the sample in a large field, − 85 kOe, displaces down the AT line and separates it into two distinct regimes: one also with ϕ = 4.6 for H above 20 Oe, nearly corresponding to the typical field to flip the remanent magnetization, and a new second regime at lower H, with field-induced remanent clusters and exponent ϕ = 3.6 that approaches the mean-field value ϕ = 3. Our findings are discussed on the light of the results from a random nonuniform anisotropy model with FM exchange interactions, which also reported the existence of a two-regimes scenario in the AT line with similar exponents. Graphical abstract: [Figure not available: see fulltext.].

Original languageEnglish (US)
Article number149
JournalEuropean Physical Journal B
Volume93
Issue number8
DOIs
StatePublished - Aug 1 2020

Bibliographical note

Publisher Copyright:
© 2020, EDP Sciences / Società Italiana di Fisica / Springer-Verlag GmbH Germany, part of Springer Nature.

Keywords

  • Solid State and Materials

Fingerprint

Dive into the research topics of 'Study of the low-field irreversibility line in the transverse component spin-glass phase of the amorphous Fe<sub>90</sub>Zr<sub>10</sub> alloy'. Together they form a unique fingerprint.

Cite this