Eytan Grosfeld scite author profile

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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Electronic transport in an array of quasiparticles in theν=5∕2non-Abelian quantum Hall state

Grosfeld

Stern²

2006

Phys. Rev. B

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The Moore-Read Pfaffian =5/2 quantum Hall state is a p-wave superconductor of composite fermions. Small deviations from =5/2 result in the formation of an array of vortices within this superconductor, each supporting a Majorana zero mode near its core. We consider how tunneling between these cores is reflected in the electronic response to an electric field of a nonzero wave-vector q and frequency . We find a mechanism for dissipative transport at frequencies below the =5/2 gap, and calculate the q , dependence of the dissipative conductivity. The contributions we find depend exponentially on ͉ −5/2͉ −1/2 .

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Observing Majorana bound states of Josephson vortices in topological superconductors

Grosfeld

Stern

2011

Proc. Natl. Acad. Sci. U.S.A.

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In recent years there has been an intensive search for Majorana fermion states in condensed matter systems. Predicted to be localized on cores of vortices in certain nonconventional superconductors, their presence is known to render the exchange statistics of bulk vortices non-abelian. Here we study the equations governing the dynamics of phase solitons (fluxons) in a Josephson junction in a topological superconductor. We show that the fluxon will bind a localized zero energy Majorana mode and will consequently behave as a non-abelian anyon. The low mass of the fluxon, as well as its experimentally observed quantum mechanical wave-like nature, will make it a suitable candidate for vortex interferometry experiments demonstrating non-abelian statistics. We suggest two experiments that may reveal the presence of the zero mode carried by the fluxon. Specific experimental realizations will be discussed as well.

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Coulomb Blockade as a Probe for Non-Abelian Statistics in Read-Rezayi States

2008

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We consider a quantum dot in the regime of the quantum Hall effect, particularly in Laughlin states and non-Abelian Read-Rezayi states. We find the location of the Coulomb blockade peaks in the conductance as a function of the area of the dot and the magnetic field. When the magnetic field is fixed and the area of the dot is varied, the peaks are equally spaced for the Laughlin states. In contrast, non-Abelian statistics is reflected in modulations of the spacing which depend on the magnetic field.

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Thermoelectric Probe for Neutral Edge Modes in the Fractional Quantum Hall Regime

et al. 2012

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The ν=5/2 anti-Pfaffian state and the ν=2/3 state are believed to have an edge composed of counterpropagating charge and neutral modes. This situation allows the generation of a pure thermal bias between two composite edge states across a quantum point contact as was experimentally established by Bid et al. [Nature 466, 585 (2010)]. We show that replacing the quantum point contact by a quantum dot provides a natural way for detecting the neutral modes via the dc current generated by the thermoelectric response of the dot. We also show that the degeneracies of the dot spectrum, dictated by the conformal field theories describing these states, induce asymmetries in the thermoelectric current peaks. This in turn provides a direct fingerprint of the corresponding conformal field theory.

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Eytan Grosfeld

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

Electronic transport in an array of quasiparticles in theν=5∕2non-Abelian quantum Hall state

Observing Majorana bound states of Josephson vortices in topological superconductors

Coulomb Blockade as a Probe for Non-Abelian Statistics in Read-Rezayi States

Thermoelectric Probe for Neutral Edge Modes in the Fractional Quantum Hall Regime

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