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A double quantum dot spin valve

Arunav Bordoloi, Valentina Zannier, Lucia Sorba, Christian Schönenberger, Andreas Baumgartner

2020Communications Physics29 citationsDOIOpen Access PDF

Abstract

Abstract A most fundamental goal in spintronics is to electrically tune highly efficient spin injectors and detectors, preferably compatible with nanoscale electronics and superconducting elements. These functionalities can be obtained using semiconductor quantum dots, spin-polarized by a ferromagnetic split-gate, which we demonstrate in a double quantum dot spin valve with two weakly coupled quantum dots in series, with individual split gates magnetized in parallel or anti-parallel. In tunneling magnetoresistance experiments we find a strongly reduced spin valve conductance for the two anti-parallel configurations, with a single dot polarization of ~27%. This value can be significantly improved by a small external magnetic field and optimized gate voltages, which results in a continuously electrically tunable quantum dot spin polarization of ±80%. Such versatile quantum dot spin filters are compatible with superconducting electronic elements and suitable for single spin projection and correlation experiments, as well as initialization and read-out of spin qubits.

Topics & Concepts

Quantum dotSpin valveCondensed matter physicsSpintronicsPhysicsSpin polarizationQuantum dot laserQuantum tunnellingSpin (aerodynamics)Spin transistorMagnetic fieldMagnetoresistanceQuantum point contactSpin engineeringFerromagnetismQuantumPolarization (electrochemistry)Quantum technologySpinplasmonicsQuantum computerQuantum mechanicsMagnetic semiconductorSpin pumpingElectro-absorption modulatorGiant magnetoresistanceQuantum spin liquidSpin quantum numberSuperconductivityQuantum sensorMaterials scienceQuantum and electron transport phenomenaTopological Materials and PhenomenaChemical and Physical Properties of Materials
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