Litcius/Paper detail

Coherent manipulation of an Andreev spin qubit

M. Hays, V. Fatemi, D. Bouman, J. Cerrillo, S. Diamond, K. Serniak, T. Connolly, P. Krogstrup, J. Nygård, A. Levy Yeyati, A. Geresdi, M. H. Devoret

2021Science180 citationsDOIOpen Access PDF

Abstract

Superconducting spin qubit To date, the most promising solid-state approaches for developing quantum information-processing systems have been based on the circulating supercurrents of superconducting circuits and manipulating the spin properties of electrons in semiconductor quantum dots. Hays et al. combined the desirable aspects of both approaches, the scalability of the superconducting circuits and the compact footprint of the quantum dots, to design and fabricate a superconducting spin qubit (see the Perspective by Wendin and Shumeiko). This so-called Andreev spin qubit provides the opportunity to develop a new quantum information processing platform. Science , abf0345, this issue p. 430 ; see also abk0929, p. 390

Topics & Concepts

PhysicsSpinsCondensed matter physicsQubitSuperconducting quantum computingQuasiparticleSpin (aerodynamics)Coherence (philosophical gambling strategy)SuperconductivityQuantum mechanicsSpin engineeringElectronSemiconductorCoherence timeCoupling (piping)Flux qubitAndreev reflectionQuantum dotJosephson effectCharge qubitCooper pairQuantumQuantum computerSpin transistorDegrees of freedom (physics and chemistry)PhononRaman spectroscopyPhase qubitSpin polarizationDephasingQuantum and electron transport phenomenaTopological Materials and PhenomenaQuantum Computing Algorithms and Architecture