Litcius/Paper detail

Negative orbital Hall effect in germanium

E. Santos, J. E. Abrão, Jonathan L. Costa, J. G. S. Santos, Gilberto Rodrigues‐Junior, J. B. S. Mendes, A. Azevedo

2024Physical Review Applied17 citationsDOI

Abstract

Our investigation reveals a groundbreaking discovery of a negative inverse orbital Hall effect (IOHE) in $\mathrm{Ge}$ thin films. We employed the spin pumping technique where the spin-orbital coupled current is injected into $\mathrm{Ge}$ films using $\mathrm{YIG}/\mathrm{Pt}(2)/\mathrm{Ge}({t}_{\mathrm{Ge}})$ and $\mathrm{YIG}/\mathrm{W}(2)/\mathrm{Ge}({t}_{\mathrm{Ge}})$ heterostructures. Through comprehensive analysis, we observe significant reductions in the signals generated by coherent (rf-driven) and incoherent (thermal-driven) spin-orbital pumping techniques. These reductions are attributed to the presence of a remarkably strong negative IOHE in $\mathrm{Ge}$, showing its magnitude comparable with the spin-to-charge signal in $\mathrm{Pt}$. Our findings reveal that, although the spin-to-charge conversion in $\mathrm{Ge}$ is negligible, the orbital-to-charge conversion exhibits a large magnitude. Our results are innovative and pioneering in the investigation of negative IOHE by the injection of spin-orbital currents.

Topics & Concepts

GermaniumHall effectCondensed matter physicsPhysicsQuantum mechanicsOptoelectronicsElectrical resistivity and conductivitySiliconMagnetic properties of thin filmsQuantum and electron transport phenomenaSurface and Thin Film Phenomena
Negative orbital Hall effect in germanium | Litcius