Slow spin dynamics of cluster spin-glass spinel Zn(Fe 1−x Ru x ) 2 O 4 : role of Jahn–Teller active spin-1/2 Cu 2+ ions at B-sites

We report the slow spin dynamics of cluster spin-glass (SG) spinel Zn(Fe 1 − x Ru x ) 2 O 4 by means of detailed d c -magnetization and a c -susceptibility studies combined with the heat capacity analysis. Two specific compositions ( x  = 0.5, 0.75) have been investigated in detail along with the su...

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Published in:Journal of physics. Condensed matter 2022-10, Vol.34 (40), p.405801
Main Authors: Jena, Suchit Kumar, Sarkar, Tapati, RoyChowdhury, Mouli, Weise, Bruno, Qi, Yajun, Thota, Subhash
Format: Article
Language:English
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Summary:We report the slow spin dynamics of cluster spin-glass (SG) spinel Zn(Fe 1 − x Ru x ) 2 O 4 by means of detailed d c -magnetization and a c -susceptibility studies combined with the heat capacity analysis. Two specific compositions ( x  = 0.5, 0.75) have been investigated in detail along with the substitution of Jahn–Teller (JT) active spin-1/2 Cu 2+ ions at B-sites. Measurements based on the frequency and temperature dependence of a c -susceptibility ( χ a c ( f , T ) ) and the subsequent analysis using the empirical scaling laws such as: (a) Vogel–Fulcher law and (b) Power law reveal the presence of cluster SG state below the characteristic freezing temperature T S G (17.77 K ( x  = 0.5) and 14 K ( x  = 0.75)). Relaxation dynamics of both the compositions follow the non-mean field de Almeida–Thouless (AT)-line approach ( T S G ( H ) = T S G ( 0 ) ( 1 − A H 2 / ϕ ) ) , with an ideal value of φ  = 3. Nevertheless, the analysis of temperature dependent high field d c -susceptibility, χ h f ( 2 kOe   ⩽   H DC   ⩽   20 kOe , T ) provides evidence for Gabay–Toulouse type mixed-phase (coexistence of SG and ferrimagnetic (FiM)) behaviour. Further, in the case of Cu 0.2 Zn 0.8 FeRuO 4 system, slowly fluctuating magnetic clusters persist even above the short-range FiM ordering temperature ( T F i M ) and their volume fraction vanishes completely across ∼6 T F i M . This particular feature of the dynamics has been very well supported by the time decay of the thermoremanent magnetization and heat-capacity studies. We employed the high temperature series expansion technique to determine the symmetric exchange coupling ( J S ) between the spins which yields J S = − 3.02 × 10 − 5  eV for Cu 0.2 Zn 0.8 FeRuO 4 representing the dominant intra-sublattice ferromagnetic interactions due to the dilute incorporation of the JT active Cu 2+ ions. However, the antiferromagnetic coupling is predominant in ZnFeRuO 4 and Cu 0.2 Zn 0.8 Fe 0.5 Ru 1.5 O 4 systems. Finally, we deduced the magnetic phase diagram in the H D C − T plane using the characteristic parameters obtained from the field variations of both a c - and d c -magnetization measurements.
ISSN:0953-8984
1361-648X
DOI:10.1088/1361-648X/ac8329