標題: Spin transport in half-metallic ferromagnet-superconductor junctions
作者: Wu, Chien-Te
Halterman, Klaus
電子物理學系
Department of Electrophysics
公開日期: 30-Aug-2018
摘要: We investigate the charge and spin transport in half-metallic ferromagnet (F) and superconductor (S) nanojunctions. We utilize a self-consistent microscopic method that can accommodate the broad range of energy scales present, and ensures that proximity effects that account for the interactions at the interfaces are accurately determined. Two experimentally relevant half-metallic junction types are considered: The first is an F1F2S structure, where a half-metallic ferromagnet F-1 adjoins a weaker conventional ferromagnet F-2. The current is injected through the F-1 layer by means of an applied bias voltage. The second configuration involves an SF1F2F3S Josephson junction whereby a phase difference Delta phi between the two superconducting electrodes generates the supercurrent flow. In this case, the central half-metallic F-2 layer is surrounded by two weak ferromagnets F-1 and F-3. By placing a ferromagnet with a weak exchange field adjacent to an S layer, we are able to optimize the conversion process in which opposite-spin triplet pairs are converted into equal-spin triplet pairs that propagate deep into the half-metallic regions in both junction types. For the tunnel junctions, we study the bias-induced local magnetization, spin currents, and spin-transfer torques for various orientations of the relative magnetization angle theta in the F layers. We find that the bias-induced equal-spin triplet pairs are maximized in the half metal for theta approximate to 90 degrees and, as part of the conversion process, are anticorrelated with the opposite-spin pairs. We show that the charge current density is maximized, corresponding to the occurrence of a large amplitude of equal-spin triplet pairs, when the exchange interaction of the weak ferromagnet is about 0.1E(F). For the half-metallic Josephson junctions we often find that the spin current flowing in the half metal is equivalent to the charge supercurrent flowing throughout the junction. This is indicative that the current consists of spin-polarized triplet pairs. The conversion process of the opposite-spin triplet pairs to the equal-spin triplet pairs in the weaker magnets is clearly demonstrated. This is exemplified by the fact that the supercurrent in the half metal was found to be relatively insensitive to its thickness.
URI: http://dx.doi.org/10.1103/PhysRevB.98.054518
http://hdl.handle.net/11536/148070
ISSN: 2469-9950
DOI: 10.1103/PhysRevB.98.054518
期刊: PHYSICAL REVIEW B
Volume: 98
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