Abstract
Spin-orbit coupling induces a unique form of Zeeman interaction in momentum space in materials that lack inversion symmetry: the electron's spin is locked on an effective magnetic field that is odd in momentum. The resulting interconnection between the electron's momentum and its spin leads to various effects such as electric dipole spin resonance, anisotropic spin relaxation and the Aharonov-Casher effect, but also to electrically driven and optically driven spin galvanic effects. Over the past 15 years, the emergence of topological materials has widened this research field by introducing complex forms of spin textures and orbital hybridization. The vast field of Rashba-like physics is now blooming, with great attention paid to non-equilibrium mechanisms such as spin-to-charge conversion, but also to nonlinear transport effects. This Review aims to offer an overview of recent progress in the development of condensed matter research that exploits the unique properties of spin-orbit coupling in non-centrosymmetric heterostructures. Show more
Publication status
publishedExternal links
Journal / series
Nature Reviews PhysicsVolume
Pages / Article No.
Publisher
NatureOrganisational unit
03986 - Gambardella, Pietro / Gambardella, Pietro
Funding
19-2 FEL-61 - Charge-spin conversion in oxide heterostructures (ETHZ)
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