Reconstruction-Induced φ0 Josephson Effect in Quantum Spin Hall Constrictions

Vigliotti, Lucia; Cavaliere, Fabio; Passetti, Giacomo; Sassetti, Maura; Ziani, N. Traverso

doi:10.3390/nano13091497

Nanomaterials

2023

DOI: 10.3390/nano13091497

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Reconstruction-Induced φ0 Josephson Effect in Quantum Spin Hall Constrictions

Lucia Vigliotti

Fabio Cavaliere

Giacomo Passetti

et al.

Abstract: The simultaneous breaking of time-reversal and inversion symmetry, in connection to superconductivity, leads to transport properties with disrupting scientific and technological potential. Indeed, the anomalous Josephson effect and the superconducting-diode effect hold promises to enlarge the technological applications of superconductors and nanostructures in general. In this context, the system we theoretically analyze is a Josephson junction (JJ) with coupled reconstructed topological channels as a link; suc… Show more

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2024

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Cited by 7 publications

References 68 publications

(79 reference statements)

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Anomalous supercurrent and diode effect in locally perturbed topological Josephson junctions

Fracassi,

Traverso,

Traverso Ziani

et al. 2024

Applied Physics Letters

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The simultaneous breaking of time-reversal and inversion symmetry can lead to peculiar effects in Josephson junctions, such as the anomalous Josephson effect or supercurrent rectification, which is a dissipationless analog of the diode effect. Due to their impact in new quantum technologies, it is important to find robust platforms and external means to manipulate the above-mentioned effects in a controlled way. Here, we theoretically consider a Josephson junction based on a quantum spin Hall system as the normal channel, subjected to a magnetic field in the direction defined by spin-momentum locking, and in the presence of a local tip in close proximity to one of the metallic edges in the normal region. We consider different local perturbations, model normal and magnetic tips, and study how they affect the Josephson response of the device. In particular, we argue that magnetic tips are a useful tool that allows for tunability of both ϕ0 response and supercurrent rectification.

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Anomalous supercurrent and diode effect in locally perturbed topological Josephson junctions

Fracassi,

Traverso,

Traverso Ziani

et al. 2024

Applied Physics Letters

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Superconducting diode effect in two-dimensional topological insulator edges and Josephson junctions

Huang,

de Picoli,

Väyrynen

2024

Applied Physics Letters

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The superconducting diode effect—the dependence of critical current on its direction—can arise from the simultaneous breaking of inversion and time-reversal symmetry in a superconductor and has gained interest for its potential applications in superconducting electronics. In this Letter, we study the effect in a two-dimensional topological insulator (2D TI) in both a uniform geometry as well as in a long Josephson junction. We show that in the presence of Zeeman fields, a circulating edge current enables a large non-reciprocity of the critical current. We find a maximum diode efficiency of 1 for the uniform 2D TI and (2−1)2≈0.17 for the long Josephson junction.

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The role of Rashba spin-orbit induced spin textures in the anomalous Josephson effect

Monaghan,

Tettamanzi

2024

Phys. Scr.

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This work reports the theoretical investigation into the mechanism underpinning the anomalousJosephson effect within ballistic systems; currently, there is no agreed upon microscopic mechanismbehind the origin of this effect. The prototypical system we study is a ballistic two-dimensionaljunction containing a two-dimensional Rashba spin-orbit interaction. In this paper we demonstratehow this two-dimensional Rashba interaction mixes the spins of adjacent transverse subbands whichleads to significant spin-asymmetry within the junction. Under an external magnetic field, appliedperpendicular to both the axis of transport and the normal vector of the junction, the sinusoidalJosephson current can then experience an anomalous phase shift. The role of this spin mixing in thelimit of a single sub-band is initially explored by deriving an analytical expression for the resultinganomalous phase shift. The analysis is then extended to systems with multiple occupied sub-bands;in this later section, starting from a microscopic model, we derive an analytic formula for theresulting anomalous phase shift indicating it is linear in both magnetic field and spin-orbit strength.We then verify and validate all findings by comparing them with numerical results evaluated by atight-binding model.

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Reconstruction-Induced φ0 Josephson Effect in Quantum Spin Hall Constrictions

Cited by 7 publications

References 68 publications

Anomalous supercurrent and diode effect in locally perturbed topological Josephson junctions

Anomalous supercurrent and diode effect in locally perturbed topological Josephson junctions

Superconducting diode effect in two-dimensional topological insulator edges and Josephson junctions

The role of Rashba spin-orbit induced spin textures in the anomalous Josephson effect

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