Abstract
We report the detailed analysis of specific heat [C$_{\rm P}$(T)] and ac-susceptibility for magnetically frustrated Sr$_{2-x}$La$_x$CoNbO$_6$ ($x=$ 0--1) double perovskites to understand low temperature complex magnetic interactions and their evolution with $x$. Interestingly, the observed Schottky anomaly in the $x\leqslant$ 0.4 samples shifts gradually towards higher temperature with magnetic field as well as $x$, and the analysis reveal the persistence of the discrete energy states in these samples resulting from the spin-orbit coupling and octahedral distortion. Moreover, the extracted values of Land\'e g--factor indicate the existence of high-spin state Co$^{3+}$ ions close to non-magnetic low-spin state. The specific heat data show the $\lambda$-type anomaly for the $x\geqslant$ 0.6 samples due to evolution of the long range antiferromagnetic ordering. Our analysis of low temperature C$_{\rm P}$(T) data for the $x\geqslant$ 0.6 samples demonstrate the 3D isotropic Heisenberg antiferromagnetic (AFM) interactions and the temperature induced second order AFM--paramagnetic phase transition. More interestingly, we demonstrate the presence of the free Co$^{2+}$ like Kramers doublet ground state in the $x =$1 sample. Further, the ac susceptibility and time evolution of the magnetization data reveal the low temperature cluster-glass like behavior in the $x=$ 0--0.4 samples, where spin-spin correlation strength decreases with $x$.
Highlights
Frustrated antiferromagnetic (AFM) insulators have attracted great interest due to their peculiar magnetic ground states, namely, spin glass (SG), cluster glass, spin liquid, spin ice, etc., unlike conventional long-range antiferromagnets [1,2,3,4]
The observed nonsaturating values of CP (∼208–214 J/mole-K) at 300 K for all samples are found to be less than the classical Dulong-Petit limit, i.e., CV = 3nR = 249.4 J/mole-K, where n and R are the number of atoms per formula unit and molar gas constant, respectively [41]
We present the enlarged view of the low-temperature regime from 1.8 K to ∼23 K in the inset of Fig. 1(a1)
Summary
Frustrated antiferromagnetic (AFM) insulators have attracted great interest due to their peculiar magnetic ground states, namely, spin glass (SG), cluster glass, spin liquid, spin ice, etc., unlike conventional long-range antiferromagnets [1,2,3,4]. A SG-type ground state and exchange bias effect have been reported in disordered La2−xSrxCoFeO6 compounds because multiple valence states of Co and Fe result in competing AFM-FM exchange interactions [33,34] In these compounds, the presence of another magnetic B-site cation with the Co makes it difficult to understand the interesting exchange coupling between the multiple valence and spin states of individual Co ions. We observe a Schottky anomaly peak in the x 0.4 samples due to the fine splitting (spin-orbit coupling and octahedral distortion) of the CF states of Co3+ ions, which gradually shift toward high temperature with x as well as magnetic field This indicates an increase in the splitting of the responsible energy states in either case. The detailed analysis of field-cooled thermoremanent magnetization (TRM) and ac susceptibility data demonstrate the low-temperature cluster-glass behavior in the x 0.4 samples, where the intercluster and spin-spin interaction strength decrease with x
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