Structural changes induced by electric currents in a single crystal of Pr2CuO4

We demonstrate an approach to the structural and electronic property modification of perovskites, focusing on Pr2CuO4, an undoped parent compound of a class of electron-doped copper-oxide superconductors. Currents were passed parallel or perpendicular to the copper oxygen layers with the voltage ram...

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Veröffentlicht in:	Physical review materials 2023-08, Vol.7 (8)
Hauptverfasser:	Roy, Susmita, Ye, Feng, Morgan, Zachary, Mathur, Kabir, Parulekar, Anish, Jalali, Syed A., Zhang, Yu, Cao, Gang, Kaneko, Nobu-Hisa, Greven, Martin, Raj, Rishi, Reznik, Dmitry
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Schlagworte:	Electrical properties Electroluminescence Magnetic order Magnetic susceptibility MATERIALS SCIENCE Superconductivity
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creator	Roy, Susmita Ye, Feng Morgan, Zachary Mathur, Kabir Parulekar, Anish Jalali, Syed A. Zhang, Yu Cao, Gang Kaneko, Nobu-Hisa Greven, Martin Raj, Rishi Reznik, Dmitry
description	We demonstrate an approach to the structural and electronic property modification of perovskites, focusing on Pr2CuO4, an undoped parent compound of a class of electron-doped copper-oxide superconductors. Currents were passed parallel or perpendicular to the copper oxygen layers with the voltage ramped up until a rapid drop in the resistivity was achieved, a process referred to as “flash.” The current was then further increased tenfold in current-control mode. This state was quenched by immersion into liquid nitrogen. Flash can drive many compounds into different atomic structures with new properties, whereas the quench freezes them into a long-lived state. Single-crystal neutron diffraction of as-grown and modified Pr2CuO4 revealed a √10 ×√10 superlattice due to oxygen-vacancy order. The diffraction peak intensities of the superlattice of the modified sample were significantly enhanced relative to the pristine sample. Raman-active phonons in the modified sample were considerably sharper. Measurements of electrical resistivity, magnetization, and two-magnon Raman scattering indicate that the modification affected only the Pr-O layers, but not the Cu-O planes. These results point to enhanced oxygen-vacancy order in the modified samples well beyond what can be achieved without passing electrical current. Our work opens a new avenue toward electric field/quench control of structure and properties of layered perovskite oxides.
doi_str_mv	10.1103/PhysRevMaterials.7.083803
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title	Structural changes induced by electric currents in a single crystal of Pr2CuO4
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