Antisite Disorder-induced Exchange Bias Effect in Multiferroic Y2CoMnO6
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The role of antisite disorder in creating the domain structure leading to exchange bias effect is highlighted in this paper, where a model based on growth of ferromagnetic domains overcoming the elastic energy of structurally pinned magnetic interfaces, which closely resembles martensitic-like transitions, is adapted to explain the observed effects.Abstract:
Exchange bias effect in the ferromagnetic double perovskite compound Y$_2$CoMnO$_6$, which is also a multiferroic, is reported. The exchange bias, observed below 8~K, is explained as arising due to the interface effect between the ferromagnetic and antiferromagnetic clusters created by {\it antisite} disorder in this material. Below 8~K, prominent ferromagnetic hysteresis with metamagnetic "steps" and significant coercive field, $H_c \approx$ 10~kOe are observed in this compound which has a $T_c \approx$ 75~K. A model based on growth of ferromagnetic domains overcoming the elastic energy of structurally pinned magnetic interfaces, which closely resembles martensitic-like transitions, is adapted to explain the observed effects. The role of {\it antisite} disorder in creating the domain structure leading to exchange bias effect is highlighted in the present work.read more
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Investigation of the magnetic properties in double perovskite R2CoMnO6 single crystals (R = rare earth: La to Lu).
TL;DR: The synthesized series of the double-perovskite R2CoMnO6 single crystals offer comprehensive information for understanding the roles of mixed-valent magnetic ions and rare earth magnetic moments on the magnetic properties.
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Disordered ferromagnetism in Ho2NiMnO6 double perovskite
Tirthankar Chakraborty,Harikrishnan S. Nair,Harikrishnan S. Nair,Hariharan Nhalil,K. Ramesh Kumar,André M. Strydom,Suja Elizabeth +6 more
TL;DR: Magnetic and dielectric properties of the double perovskite Ho2NiMnO6 are reported and signs of inherent Griffiths phase pertaining to the Ni/Mn subsystem are visible.
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Reentrant spin glass behavior and magnetodielectric coupling of an Ir-based double perovskite compound, La2CoIrO6.
Jiyue Song,Bangchuan Zhao,Lihua Yin,Yanfeng Qin,Yanfeng Qin,Jiafeng Zhou,Jiafeng Zhou,Dong Wang,Dong Wang,Wenhai Song,Yuping Sun,Yuping Sun +11 more
TL;DR: The structural, magnetic, electrical and dielectric properties of an Ir-based double perovskite compound, La2CoIrO6, have been investigated and it is shown that a clear magnetodielectric coupling effect exists in La2 coirO6 at low temperatures.
Journal ArticleDOI
Antisite-disorder driven large exchange bias effect in phase separated La 1.5 Ca 0.5 CoMnO 6 double perovskite
TL;DR: In this article, a phenomenological model has been proposed to explain the exchange coupling between the ferromagnetic and canted-antiferromagnetic interfaces of antisite-disordered double perovskite La 1.5 Ca 0.5 CoMnO 6 mainly on the basis of uncompensated interface spins.
Journal ArticleDOI
Exchange bias and spin glass states driven by antisite disorder in the double perovskite compound LaSrCoFeO 6
TL;DR: In this paper, the antisite disorder in the antiferromagnetic double perovskite (LaSrCoFeO) lattice was studied and the effect of such disorder induced a spin-glass state in the lattice.
References
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Magnetism driven ferroelectricity above liquid nitrogen temperature in Y2CoMnO6
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