The possible origin of the higher magnetic phase transition in RuSr2Eu1.5Ce0.5Cu2O10 (Ru-1222)
I. Felner, E. Galstyan, and I. Nowik
TL;DR
This study investigates the magnetic phase transitions in Ru-1222, revealing that the higher transition temperature TM may originate from Ru4+ rich clusters or minor magnetic phases, with implications for understanding magnetism in these materials.
Contribution
The paper proposes that the higher magnetic transition TM in Ru-1222 arises from Ru4+ rich clusters or minor phases, a novel explanation for the observed magnetic behavior.
Findings
Two magnetic transitions observed at 160 K and 80 K.
TM is unaffected by Mo doping, suggesting it is not from the main phase.
Presence of Ru4+ clusters or minor phases explains the higher transition.
Abstract
Two magnetic transitions are observed in the magneto-superconducting RuEu2-xCexSr2Cu2O10 (Ru-1222), at TM 160 K and TM2~80 K. Below TM2 the Ru moments are weak-ferromagnetically ordered and wide ferromagnetic hysteresis loops are observed, they become narrow and disappear at ~ 60-70 K. Above TM2, (i) small antiferromagnetic-like hysteresis loops reappear with a peak in the coercive fields around 120 K. (ii) A small peak at ~120 K is also observed in the dc and ac susceptibility curves. The two phenomena are absent in the non-SC x=1 samples. For x<1, the decrease of the Ce4+ content, is compensated by non-homogeneous oxygen depletion, which may induce a reduction of Ru5+ ions to Ru4+. The higher ordering temperature, TM, which does not change with x, may result from Ru4+ rich clusters, in which the Ru4+-Ru4+ exchange interactions are stronger than the Ru5+-Ru5+ interactions. In the…
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