Observing Majorana bound states of Josephson vortices in topological superconductors

Grosfeld, Eytan; Stern, Ady

doi:10.1073/pnas.1101469108

Cited by 83 publications

(91 citation statements)

References 34 publications

(55 reference statements)

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“…The operators satisfy g y i ¼ g i and {g i ,g j } ¼ d ij . The properties of the device are determined by the interplay of the Josephson coupling E J , the charging energy E C , the coupling E M between the Majorana excitations and the superconducting phase difference j 18,20,[35][36][37][38][39][40] . The Hamiltonian for the hybrid junction is…”

Section: Resultsmentioning

confidence: 99%

Microwave transitions as a signature of coherent parity mixing effects in the Majorana-transmon qubit

2014

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Solid-state Majorana fermions are generating intensive interest because of their unique properties and possible applications in fault tolerant quantum memory devices. Here we propose a method to detect signatures of Majorana fermions in hybrid devices by employing the sensitive apparatus of the superconducting charge-qubit architecture and its efficient coupling to microwave photons. In the charge and transmon regimes of this device, we find robust signatures of the underlying Majorana fermions that are, remarkably, not washed out by the smallness of the Majorana contribution to the Josephson current. It is predicted that at special gate bias points the photon-qubit coupling can be switched off via quantum interference, and in other points it is exponentially dependent on the control parameter E J /E C . We propose that this device could be used to manipulate the quantum state of the Majorana fermion and realize a tunable high coherence four-level system in the superconducting-circuit architecture.

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Section: Resultsmentioning

confidence: 99%

Microwave transitions as a signature of coherent parity mixing effects in the Majorana-transmon qubit

2014

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“…Hence, the accumulated phase can be adjusted to ∆θ = π/2 (mod π). With the estimated value of the bare coupling strength m 0 ∼ 0.025 meV and the typical edge velocity v m ∼ 10 5 m/s, [35] the accumulated phase is estimated to be ∆θ ∼ ∆x × 10 6 µm −1 . This implies that ∆x should be of order 1 − 2 µm in order to have ∆θ = π/2.…”

Section: Discussionmentioning

confidence: 99%

“…1, is a direct consequence of the fact that p x ± ip y superconductors are in two distinct topological superconducting phases. As both p x ± ip y superconductor are fully gapped in the bulk, these chiral Majorana edge states are the lowest energy degrees of freedom at the domain wall and are described by the Hamiltonian [35] …”

Section: Setupmentioning

confidence: 99%

Quantum information sharing between topologically distinct platforms

2016

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Can topological quantum entanglement between anyons in one topological medium "stray" into a different, topologically distinct medium? In other words, can quantum information encoded non-locally in the combined state of non-Abelian anyons be shared between two distinct topological media? For one-dimensional topological superconductors with Majorana bound states at the end of system, the quantum information store in those Majorana bound states can be transfered by directly coupling nearby Majorana bound states. However, coupling of two one-dimensional Majorana states will produce a gap, indicating that distinct topological regions of one-dimensional wires unite into a single topological region through the information transfer process. In this paper, we consider a setup with two two-dimensional p-wave superconductors of opposite chirality adjacent to each other. Even two co-moving chiral modes at the domain wall between them cannot be gapped through interactions, we demonstrate that information encoded in the fermionic parity of two Majorana zero modes, originally within the same superconducting domain, can be shared between the domains or moved entirely from one domain to another provided that vortices can tunnel between them in a controlled fashion.

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“…A simple example is a class D topological superconductor attached to a single metallic lead (Fig.6). A more sophisticated approach proposed by Grosfeld and Stern 182) is to utilize the interplay between the Aharonov-Bohm effect and Aharonov-Casher effect.…”

Section: Proposal For Experimental Detection Of Non-abelian Statisticsmentioning

confidence: 99%

Majorana Fermions and Topology in Superconductors

2016

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type of quantum statistics referred to as non-Abelian statistics, which is distinct from bose and fermi statistics, and can be utilized for application to topological quantum computation. Also, Majorana fermions give rise to various exotic phenomena such as "fractionalization", nonlocal correlation, and "teleportation". A pedagogical review of these subjects is presented.We also discuss interaction effects on topological classification of superconductors, and the basic properties of Weyl superconductors.

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Observing Majorana bound states of Josephson vortices in topological superconductors

Cited by 83 publications

References 34 publications

Microwave transitions as a signature of coherent parity mixing effects in the Majorana-transmon qubit

Microwave transitions as a signature of coherent parity mixing effects in the Majorana-transmon qubit

Quantum information sharing between topologically distinct platforms

Majorana Fermions and Topology in Superconductors

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