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Paper detail

Fractional Spin Josephson Effect and Electrically Controlled Magnetization in Quantum Spin Hall Edges

We explore a spin Josephson effect in a system of two ferromagnets coupled by a tunnel junction formed of 2D time-reversal invariant topological insulators. In analogy with the more commonly studied instance of the Josephson effect for charge in superconductors, we investigate properties of the phase-coherent {\it spin} current resulting from the misalignment of the in-plane magnetization angles of the two ferromagnets. We show that the topological insulating barrier offers the exciting prospect of hosting a {\it fractional} spin Josephson effect mediated by bound states at the ferromagnet-topological insulator interface. We provide multiple perspectives to understand the $4π$ periodic nature of this effect. We discuss several measurable consequences, such as, the generation of a transverse voltage signal which allows for purely electrical measurements, an inverse of this effect where an applied voltage gives rise to a transverse spin-current, and a fractional AC spin-Josephson effect.

preprint2012arXivOpen access
Qinglei MengVasudha ShivamoggiTaylor L. HughesMatthew J. GilbertSmitha Vishveshwara
cond-mat.mes-hall
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Qinglei MengVasudha ShivamoggiTaylor L. HughesMatthew J. GilbertSmitha Vishveshwara

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