Irreversible Metamagnetic Transitions in Yb3+- distorted tetragonal Pr_0.45Sr_0.55MnO₃

Journal of Physics D Pub Date : 2023-10-30 DOI:10.1088/1361-6463/ad030d

Ravi Kiran Dokala, Shaona Das, Ganesh Jangam, Pankaj Kumar Mishra, Subhash Thota

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Abstract

Abstract Field-induced metamagnetic behavior and orbital-ordering (OO) in Yb-substituted (PrSr)MnO 3 perovskites have been reported. The occurrence of distortions in the tetragonal crystal lattice leads to a reduction in the Mn − O 2 − Mn bond angle, which in turn governs the temperature and field-dependent long-range magnetic orderings. Extensive magnetization measurements reveal the high Curie temperature T C ∼ 302 K ferromagnetic (FM) phase and suggest the possibility of the existence of the OO in Pr 0.45– x Yb x Sr 0.55 MnO 3 accompanied by antiferromagnetic (AFM) Néel temperature, T N , as low as 158 K. Irreversible metamagnetic transitions from the AFM phase to the FM phase occur for a specific composition x = 0.05 (Yb5) until T ⩽ 220 K. The admixture of AFM and FM metastable states is quite robust in the investigated system, whereas the AFM state is mediated by Yb 3+ ions, while the FM state arises as a result of field-driven thermo-magnetic kinetics. These results provide a constructive approach for designing novel spin-valve devices.

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Yb3+-畸变四边形Pr0.45Sr0.55MnO3的不可逆变磁跃迁

本文报道了yb取代mno3钙钛矿的场致变磁性和轨道有序。四方晶格中畸变的发生导致Mn−o2−Mn键角的减小，这反过来又控制了温度和场相关的远程磁有序。广泛的磁化测量揭示了高居里温度T C ~ 302 K铁磁(FM)相，并表明在Pr 0.45 - x Yb x Sr 0.55 mno3中存在OO的可能性，并伴有低至158 K的反铁磁(AFM) n温度T N。对于特定成分x = 0.05 (Yb5)，在T≤220 K之前，从AFM相到FM相发生不可逆的变磁转变。在所研究的体系中，AFM和FM亚稳态的混合非常稳定，而AFM状态是由yb3 +离子介导的，而FM状态是由场驱动的热磁动力学引起的。这些结果为设计新型自旋阀装置提供了建设性的思路。

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Journal of Physics D

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