# Giant spin splitting and $0 - \pi$ Josephson transitions from the   Edelstein effect in quantum spin-Hall insulators

**Authors:** G. Tkachov

arXiv: 1703.05972 · 2017-06-13

## TL;DR

This paper introduces a highly efficient spin-polarization mechanism in quantum spin-Hall insulator-superconductor hybrids via the Edelstein effect, enabling magnetic control of Josephson states without destroying superconductivity.

## Contribution

It demonstrates a novel magnetoelectric (Edelstein) effect in QSHI-superconductor structures that induces giant spin splitting and controllable 0-π Josephson transitions.

## Key findings

- Recurrent crossover from $\
- 	o \
- 	ext{periodic oscillations of the Josephson current observed}

## Abstract

Hybrid structures of quantum spin-Hall insulators (QSHIs) and superconductors (Ss) present a unique opportunity to access dissipationless topological states of matter, which, however, is frequently hindered by the lack of control over the spin polarization in QSHIs. We propose a very efficient spin-polarization mechanism based on the magnetoelectric (Edelstein) effect in superconducting QSHI structures. It acts akin to the Zeeman splitting in an external magnetic field, but with an effective $g$-factor of order of 1000, resulting in an unprecedented spin-splitting effect. It allows a magnetic control of the QSHI/S hybrids without destroying superconductivity. As an example, we demonstrate a recurrent crossover from $\Phi_0$ - to $\Phi_0/2$ - periodic oscillations of the Josephson current in an rf superconducting quantum interference device ($\Phi_0=h/2e$ is the magnetic flux quantum). The predicted period halving is a striking manifestation of $0-\pi$ Josephson transitions with a superharmonic $\pi$-periodic current-phase relationship at the transition. Such controllable $0-\pi$ transitions may offer new perspectives for dissipationless spintronics and engineering flux qubits.

## Full text

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## Figures

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## References

47 references — full list in the complete paper: https://tomesphere.com/paper/1703.05972/full.md

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Source: https://tomesphere.com/paper/1703.05972