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Exchange bias and magnetic memory effect in hole doped Nd0.78Sr0.22CoO3 nanoparticles

Nd0.78Sr0.22CoO3 nanoparticles having 89 nm average particle size are synthesized by standard sol–gel techniques. Structural and morphological characterization is performed by X-ray diffraction and FESEM images. DC magnetization studies in… Click to show full abstract

Nd0.78Sr0.22CoO3 nanoparticles having 89 nm average particle size are synthesized by standard sol–gel techniques. Structural and morphological characterization is performed by X-ray diffraction and FESEM images. DC magnetization studies in the range 1.6 K to 300 K reveal the disordered magnetic phase below 36 K. Existence of this disordered magnetic phase is substantiated by the magnetic memory effect. A significant upturn in the ZFC magnetization below 4.5 K, which is a signature of a dominant ferromagnetic (FM) component, is observed. This FM component may be attributed to the uncompensated (UC) spins at the surface of Nd0.78Sr0.22CoO3 nanoparticles. The presence of the interface of these two magnetic components with significantly different anisotropy results in the exchange bias effect.

Keywords: 78sr0 22coo3; nd0 78sr0; 22coo3 nanoparticles; magnetic memory; memory effect

Journal Title: RSC Advances
Year Published: 2022

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