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Inverse spin-Hall effect in GeSn

Adele Marchionni, Carlo Zucchetti, F. Ciccacci, Marco Finazzi, Hannes S. Funk, Daniel Schwarz, Michael Oehme, Jörg Schulze, Federico Bottegoni

2021Applied Physics Letters16 citationsDOIOpen Access PDF

Abstract

Due to the long spin lifetime and its optical and electrical properties, GeSn is a promising candidate for the integration of spintronics, photonics, and electronics. Here, we investigate the photoinduced inverse spin-Hall effect in a GeSn alloy with 5% Sn concentration. We generate a spin-polarized electron population at the Γ point of the GeSn conduction band by means of optical orientation, and we detect the inverse spin-Hall effect signal coming from the spin-to-charge conversion in GeSn. We study the dependence of the inverse spin-Hall signal on the kinetic energy of the spin-polarized carriers by varying the energy of the impinging photons in the 0.5–1.5 eV range. We rationalize the experimental data within a diffusion model which explicitly accounts for momentum, energy, and spin relaxation of the spin-polarized hot electrons. At high photon energies, when the spin relaxation is mainly driven by phonon scattering, we extract a spin-Hall angle in GeSn which is more than ten times larger than the one of pure Ge. Moreover, the spin–charge interconversion for electrons lying at the Δ valleys of GeSn results to be ≈4.3 times larger than the one for electrons at L valleys.

Topics & Concepts

SpintronicsSpin Hall effectSpin (aerodynamics)Condensed matter physicsElectronPhoton energySpin polarizationPhotonPhysicsRelaxation (psychology)Materials scienceOpticsQuantum mechanicsFerromagnetismThermodynamicsSocial psychologyPsychologyPhotonic and Optical DevicesNeural Networks and Reservoir ComputingQuantum and electron transport phenomena
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