Superconducting proximity effect in epitaxial Al-InAs heterostructures

Mayer, William; Yuan, Joseph; Wickramasinghe, Kaushini; Nguyen, Tri; Dartiailh, Matthieu; Shabani, Javad

doi:10.1063/1.5067363

Cited by 76 publications

(76 citation statements)

References 34 publications

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“…Superconductivity is induced in the InAs NW by proximity to the Al half-covering. Although any semiconducting NW with high g-factor could be suitable, we consider InAs in which epitaxial growth and proximityinduced superconductivity have been demonstrated [54][55][56]. The NW is separated from the magnetic film by an insulator spacer (gray layer).…”

Section: Theoretical Modelmentioning

confidence: 99%

Electrical Control of Majorana Bound States Using Magnetic Stripes

Mohanta

Zhou

et al. 2019

Phys. Rev. Applied

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A hybrid semiconductor-superconductor nanowire on the top of a magnetic film in the stripe phase experiences a magnetic texture from the underlying fringing fields. The Zeeman interaction with the highly inhomogeneous magnetic textures generates a large synthetic spin-orbit coupling. We show that this platform can support the formation of Majorana bound states (MBS) localized at the ends of the nanowire. The transition to the topological superconducting phase not only depends on the nanowire parameters and stripe size but also on the relative orientation of the stripes with respect to the nanowire axis. Topological phase transitions with the corresponding emergence or destruction of MBS can be induced by reorienting the stripes or shifting their position, which can be achieved by passing a charge current through the magnetic film or by applying electrically-controlled strain to it. The proposed platform removes the need for external magnetic fields and offers a non-invasive electrical tuning of MBS with the perturbation (current or strain) acting only on thee magnetic film.

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Section: Theoretical Modelmentioning

confidence: 99%

Electrical Control of Majorana Bound States Using Magnetic Stripes

Mohanta

Zhou

et al. 2019

Phys. Rev. Applied

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“…A push to seek alternative platforms for topological superconductivity led to the demonstration of robust proximityinduced superconductivity in a two-dimensional electron gas (2DEG) [18][19][20] which offers important opportunities to realize and control MBS [21][22][23][24][25][26][27]. Recent experiments in planar Josephson junctions (JJs) [28][29][30] reveal that topological superconductivity exists over a large parameter space without requiring fine tuning, while demonstrating the key role of superconducting phase to control the topological transition.…”

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confidence: 99%

Phase Control of Majorana Bound States in a Topological X Junction

et al. 2020

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Topological superconductivity supports exotic Majorana bound states (MBS) which are chargeless zeroenergy emergent quasiparticles. With their non-Abelian exchange statistics and fractionalization of a single electron stored nonlocally as a spatially separated MBS, they are particularly suitable for implementing fault-tolerant topological quantum computing. While the main efforts to realize MBS have focused on one-dimensional systems, the onset of topological superconductivity requires delicate parameter tuning and geometric constraints pose significant challenges for their control and demonstration of non-Abelian statistics. To overcome these challenges, building on recent experimental advances in planar Josephson junctions (JJs), we propose a MBS platform of X-shaped JJs. This versatile implementation reveals how external flux control of the superconducting phase difference can generate and manipulate multiple MBS pairs to probe non-Abelian statistics. The underlying topological superconductivity exists over a large parameter space, consistent with materials used in our fabrication of such X junctions, as an important step towards scalable topological quantum computing. arXiv:1909.05386v1 [cond-mat.mes-hall]

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“…One of them employs the interplay between the superconducting and magnetic proximity effects to generate topological states in a two-dimensional electron gas (2DEG) [14,15]. It is further stimulated by the demonstrated robust proximity-induced superconductivity in all-epitaxial 2D structures and a versatile control of spin valves [16][17][18][19][20][21][22][23].…”

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confidence: 99%

“…Recent experiments show a robust proximityinduced 2D superconductivity in InAs that forms transparent contacts with Al and yields a very large critical current in Josephson junctions [16,17]. With all-epitaxial growth, proximity-induced superconducting gap, ∆, attains nearly the bulk value of Al (∆ Al ∼ 0.2 meV) [17]. To strengthen the influence of tunable magnetic textures on 2DEG superconductivity and allow for a larger MNP-2DEG separation (l 0 , see Fig.…”

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confidence: 99%

Tunable magnetic textures in spin valves: From spintronics to Majorana bound states

et al. 2019

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Spin-valve structures in which a change of magnetic configuration is responsible for magnetoresistance led to impressive advances in spintronics, focusing on magnetically storing and sensing information. However, this mature technology also offers versatile control of magnetic textures with usually neglected underlying fringing fields to enable entirely different applications by realizing topologically-nontrivial states. Together with proximity-induced superconductivity in a two-dimensional electron gas with a large g-factor, these fringing fields realized in commercially-available spin valves provide Zeeman splitting, synthetic spin-orbit coupling, and confinement, needed for Majorana bound states (MBS). Detailed support for the existence and control of MBS is obtained by combining accurate micromagnetic simulation of fringing fields used as an input in Bogoliubov de Gennes equation to calculate low-energy spectrum, wavefunction localization, and local charge neutrality. A generalized condition for a quantum phase transition in these structures provides valuable guidance for the MBS evolution and implementing reconfigurable effective topological wires.

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Superconducting proximity effect in epitaxial Al-InAs heterostructures

Cited by 76 publications

References 34 publications

Electrical Control of Majorana Bound States Using Magnetic Stripes

Electrical Control of Majorana Bound States Using Magnetic Stripes

Phase Control of Majorana Bound States in a Topological X Junction

Tunable magnetic textures in spin valves: From spintronics to Majorana bound states

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