Jae-Chun Jeon scite author profile

Although recent experiments and theories have shown a variety of exotic transport properties of nonequilibrium quasiparticles (QPs) in superconductor (SC)-based devices with either Zeeman or exchange spin-splitting, how a QP interplays with magnon spin currents remains elusive. Here, using nonlocal magnon spin-transport devices where a singlet SC (Nb) on top of a ferrimagnetic insulator (Y3Fe5O12) serves as a magnon spin detector, we demonstrate that the conversion efficiency of magnon spin to QP charge via inverse spin-Hall effect (iSHE) in such an exchange-spin-split SC can be greatly enhanced by up to 3 orders of magnitude compared with that in the normal state, particularly when its interface superconducting gap matches the magnon spin accumulation. Through systematic measurements by varying the current density and SC thickness, we identify that superconducting coherence peaks and exchange spin-splitting of the QP density-of-states, yielding a larger spin excitation while retaining a modest QP charge-imbalance relaxation, are responsible for the giant QP iSHE. The latter exchange-field-modified QP relaxation is experimentally proved by spatially resolved measurements with varying the separation of electrical contacts on the spin-split Nb.

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Zero-field polarity-reversible Josephson supercurrent diodes enabled by a proximity-magnetized Pt barrier

Jeon

Kim

Yoon

et al. 2022

Nat. Mater.

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Long-range supercurrents through a chiral non-collinear antiferromagnet in lateral Josephson junctions

et al. 2021

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The proximity-coupling of a chiral non-collinear antiferromagnet (AFM)1–5 with a singlet superconductor allows spin-unpolarized singlet Cooper pairs to be converted into spin-polarized triplet pairs6–8, thereby enabling non-dissipative, long-range spin correlations9–14. The mechanism of this conversion derives from fictitious magnetic fields that are created by a non-zero Berry phase15 in AFMs with non-collinear atomic-scale spin arrangements1–5. Here we report long-ranged lateral Josephson supercurrents through an epitaxial thin film of the triangular chiral AFM Mn3Ge (refs. 3–5). The Josephson supercurrents in this chiral AFM decay by approximately one to two orders of magnitude slower than would be expected for singlet pair correlations9–14 and their response to an external magnetic field reflects a clear spatial quantum interference. Given the long-range supercurrents present in both single- and mixed-phase Mn3Ge, but absent in a collinear AFM IrMn16, our results pave a way for the topological generation of spin-polarized triplet pairs6–8 via Berry phase engineering15 of the chiral AFMs.

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Setting of the magnetic structure of chiral kagome antiferromagnets by a seeded spin-orbit torque

et al. 2022

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The current-induced spin-orbit torque switching of ferromagnets has had huge impact in spintronics. However, short spin-diffusion lengths limit the thickness of switchable ferromagnetic layers, thereby limiting their thermal stability. Here, we report a previously unobserved seeded spin-orbit torque (SSOT) by which current can set the magnetic states of even thick layers of the chiral kagome antiferromagnet Mn 3 Sn. The mechanism involves setting the orientation of the antiferromagnetic domains in a thin region at the interface with spin currents arising from an adjacent heavy metal while also heating the layer above its magnetic ordering temperature. This interface region seeds the resulting spin texture of the entire layer as it cools down and, thereby, overcomes the thickness limitation of conventional spin-orbit torques. SSOT switching in Mn 3 Sn can be extended beyond chiral antiferromagnets to diverse magnetic systems and provides a path toward the development of highly efficient, high-speed, and thermally stable spintronic devices.

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Reentrant low-field magneto-resistance in La0.3Pr0.4Ca0.3MnO3 film due to spatial confinement

Jeon

Alagoz

Boos

et al. 2014

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Spatially confined La0.3Pr0.4Ca0.3MnO3 micro-bridge was found to produce two maxima in the temperature dependence of the magneto-resistance (MR) as well as in the temperature dependence of the area of the hysteresis loops that exist in an isothermal magnetic field scan of the resistance. One of the peaks is close to the metal-insulator transition temperature, as expected for a standard manganite film, while the additional peak occurs at lower temperatures where co-existing metallic and insulating domains have sizes comparable to the spatially confined region. The dependence of the MR of these two peaks on magnetic field is also substantially different, i.e., the MR of the latter peak is considerably less sensitive to magnetic field than the former one.

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Jae-Chun Jeon

Giant Transition-State Quasiparticle Spin-Hall Effect in an Exchange-Spin-Split Superconductor Detected by Nonlocal Magnon Spin Transport

Zero-field polarity-reversible Josephson supercurrent diodes enabled by a proximity-magnetized Pt barrier

Long-range supercurrents through a chiral non-collinear antiferromagnet in lateral Josephson junctions

Setting of the magnetic structure of chiral kagome antiferromagnets by a seeded spin-orbit torque

Reentrant low-field magneto-resistance in La0.3Pr0.4Ca0.3MnO3 film due to spatial confinement

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