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Quasi-two-dimensional electron gas at the oxide interfaces for topological quantum physics

A. Barthélémy, N. Bergeal, Manuel Bibès, Andrea D. Caviglia, R. Citro, Mario Cuoco, Alexei Kalaboukhov, Beena Kalisky, C. A. Perroni, J. Santamarı́a, D. Stornaiuolo, M. Salluzzo

2021Europhysics Letters (EPL)21 citationsDOI

Abstract

The development of “fault-tolerant” quantum computers, unaffected by noise and decoherence, is one of the fundamental challenges in quantum technology. One of the approaches currently followed is the realization of “topologically protected” qubits which make use of quantum systems characterized by a degenerate ground state of composite particles, known as “non-Abelian anyons”, able to encode and manipulate quantum information in a non-local manner. In this paper, we discuss the potential of quasi-two-dimensional electron gas (q2DEG) at the interface between band insulating oxides, like LaAlO3 and SrTiO3, as an innovative technological platform for the realization of topological quantum systems. Being characterized by a unique combination of unconventional spin-orbit coupling, magnetism, and 2D-superconductivity, these systems naturally possess most of the fundamental characteristics needed for the realization of a topological superconductor. These properties can be widely tuned by electric field effect acting on the orbital splitting and occupation of the non-degenerate 3dxy and 3dxz,yz bands. The topological state in oxide q2DEGs quasi-one-dimensional nanochannels could be therefore suitably controlled, leading to conceptual new methods for the realization of a topological quantum electronics based on the tuning of the orbital degrees of freedom.

Topics & Concepts

Topological quantum computerPhysicsTopology (electrical circuits)Topological degeneracyRealization (probability)QubitDegenerate energy levelsQuantum computerQuantum technologyQuantum networkQuantum mechanicsTopological orderQuantumTheoretical physicsSymmetry protected topological orderOpen quantum systemMathematicsStatisticsCombinatoricsElectronic and Structural Properties of OxidesAdvanced Condensed Matter PhysicsMagnetic and transport properties of perovskites and related materials
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