Revealing Topological Superconductivity in Extended Quantum Spin Hall Josephson Junctions

We calculate the Josephson current between two one-dimensional (1D) nanowires oriented along x with proximity induced s-wave superconducting pairing and separated by a narrow dielectric barrier in the presence of both Rashba spin-orbit interaction (SOI) characterized by strength α and Zeeman fields (h alongẑ and B in the x − y plane). We formulate a general method for computing the Andreev bound states energy which allows us to obtain analytical expressions for the energy of these states in several asymptotic cases. We find that in the absence of the magnetic fields the energy gap between the Andreev bound states decreases with increasing Rashba SOI constant leading eventually to touching of the levels. In the absence of Rashba SOI, the Andreev bound states depend on the magnetic fields and display oscillatory behavior with orientational angle of B leading to magneto-Josephson effect. We also present analytic expressions for the dc Josephson current charting out their dependence on B, h, and α. We demonstrate the existence of finite spin-Josephson current in these junctions in the presence of external magnetic fields and provide analytic expressions for its dependence on α, B and h. Finally, we study the AC Josephson effect in the presence of the SOI (for |B| = h = 0) and an external radiation and show that the width of the resulting Shapiro steps in such a system can be tuned by varying α. We discuss experiments which can test our theoretical results.

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“…with The current-phase relation at magnetic field h = 0.1 calculated by using expressions (24), (25) and (26) is presented in Fig. 6.…”

Section: Equilibrium Josephson Current and Spin Currentmentioning

confidence: 99%

Effect of magnetic field and Rashba spin-orbit interaction on the Josephson tunneling between superconducting nanowires

et al. 2017

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“…It follows that the critical current has a fractional 2Φ 0 -periodicity rather than the conventional Φ 0 one. The realization of the normal region by two separated chiral channels in the present setup is one of the most relevant distinctions from the junctions with 2D topological insulator where Andreev pairs exist on the same edge 20,21 . The paper is organized as follows.…”

Section: Introductionmentioning

confidence: 94%

Current-phase relation andh/e-periodic critical current of a chiral Josephson contact between one-dimensional Majorana modes

2016

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We explore a long Josephson contact transporting Cooper pairs between 1D charge-neutral chiral Majorana modes in the leads via charged Dirac chiral modes in the normal region. We investigate the regimes of (i) transparent contacts and (ii) tunnel junctions implemented in 3D topological insulator/superconductor/magnet hybrid structures. The setup acts as a SQUID controlled by the magnetic flux enclosed by the chiral loop of the normal region. This chirality leads to the fractional h/e-periodic pattern of critical current. The current-phase relation can have sawtooth-like shape with spikes at unusual even phases of 2πn.

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“…An explanation in terms of a Lorentz-force induced asymmetry in the current distribution is therefore unlikely [19][20][21][22][23]. The h/e-periodic Josephson effect of Majorana zero modes [24] is spoiled, on the time scale of the experiment, by any small amount of quasiparticle poisoning [6], so an explanation along these lines is not viable. A conducting pathway through the bulk, parallel to the edges, can explain the data [4]-but only if it is located within 10% of the device center (the flux needs to be accurately partitioned into twice /2).…”

Section: -2mentioning

confidence: 99%

“…We are motivated by recent work on proximity induced superconductivity in quantum spin-Hall (QSH) insulators [2][3][4][5][6][7][8], which in one series of experiments [4] showed Fraunhofer oscillations with an even-odd effect: Large peaks in the critical current at even multiples of h/2e alternate with smaller peaks at odd multiples.…”

mentioning

confidence: 99%

“…Following Ref. [6] we assume that the superconductors dope the contacted QSH insulator, locally pushing the Fermi level in the conduction band. The broad conducting pathway that appears along the NS interface will be gapped by the superconducting proximity effect, but a narrow gapless channel may remain because superconductivity only becomes effective at some penetration length ξ 0 from the NS interface.…”

mentioning

confidence: 99%

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Even-odd flux quanta effect in the Fraunhofer oscillations of an edge-channel Josephson junction

2015

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We calculate the beating of h/2e and h/e periodic oscillations of the flux-dependent critical supercurrent I c ( ) through a quantum spin-Hall insulator between two superconducting electrodes. A conducting pathway along the superconductor connects the helical edge channels via a nonhelical channel, allowing an electron incident on the superconductor along one edge to be Andreev reflected along the opposite edge. In the limit of small Andreev reflection probability the resulting even-odd effect is described by I c ∝ | cos(e / ) + f |, with |f | 1 proportional to the probability for phase-coherent interedge transmission. Because the sign of f depends on microscopic details, a sample-dependent inversion of the alternation of large and small peaks is a distinctive feature of the beating mechanism for the even-odd effect. Superconductor-normal-metal-superconductor junctions with edge channel conduction in the normal region are governed by the interplay of charge e and charge 2e transport: Charge can only enter or exit the superconductor in units of 2e, but in the normal region this Cooper pair can be split over opposite edges, when an electron incident on the normalsuperconductor (NS) interface along one edge is Andreev reflected as a hole along the opposite edge.For quantum Hall edge channels this mechanism produces Fraunhofer oscillations (oscillations of the critical current with enclosed flux ) having a fundamental period of h/e, twice the usual periodicity [1]. These are chiral edge channels, so Andreev reflection along the edge of incidence is forbidden and only the circulating path of Fig. 1(a) contributes to the supercurrent. When the edge channels allow for propagation in both directions, the critical current includes the usual h/2e-periodic contributions from Andreev reflection along a single edge, and further h/e periodic contributions from circulating paths without charge transfer [ Fig. 1(b)].Here we investigate this beating of h/e and h/2e periodic contributions to the Fraunhofer oscillations. We are motivated by recent work on proximity induced superconductivity in quantum spin-Hall (QSH) insulators [2][3][4][5][6][7][8], which in one series of experiments [4] showed Fraunhofer oscillations with an even-odd effect: Large peaks in the critical current at even multiples of h/2e alternate with smaller peaks at odd multiples.The QSH insulator has helical edge channels (with direction of motion tied to the spin), so we consider that case in what follows (although the beating mechanism for the even-odd effect does not rely on helicity). Following Ref.[6] we assume that the superconductors dope the contacted QSH insulator, locally pushing the Fermi level in the conduction band. The broad conducting pathway that appears along the NS interface will be gapped by the superconducting proximity effect, but a narrow gapless channel may remain because superconductivity only becomes effective at some penetration length ξ 0 from the NS interface. (Reference [4] estimates ξ 0 240 nm, comparable to the estimated width o...

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Revealing Topological Superconductivity in Extended Quantum Spin Hall Josephson Junctions

Cited by 65 publications

References 44 publications

Effect of magnetic field and Rashba spin-orbit interaction on the Josephson tunneling between superconducting nanowires

Effect of magnetic field and Rashba spin-orbit interaction on the Josephson tunneling between superconducting nanowires

Current-phase relation andh/e-periodic critical current of a chiral Josephson contact between one-dimensional Majorana modes

Even-odd flux quanta effect in the Fraunhofer oscillations of an edge-channel Josephson junction

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