| Literature DB >> 32603174 |
D Yu Usachov1, I A Nechaev2, G Poelchen3, M Güttler3, E E Krasovskii4,5,6, S Schulz3, A Generalov7, K Kliemt8, A Kraiker8, C Krellner8, K Kummer9, S Danzenbächer3, C Laubschat3, A P Weber4, J Sánchez-Barriga10, E V Chulkov1,4,5,11,12, A F Santander-Syro13, T Imai14, K Miyamoto15, T Okuda15, D V Vyalikh4,6.
Abstract
Spin-orbit interaction and structure inversion asymmetry in combination with magnetic ordering is a promising route to novel materials with highly mobile spin-polarized carriers at the surface. Spin-resolved measurements of the photoemission current from the Si-terminated surface of the antiferromagnet TbRh_{2}Si_{2} and their analysis within an ab initio one-step theory unveil an unusual triple winding of the electron spin along the fourfold-symmetric constant energy contours of the surface states. A two-band k·p model is presented that yields the triple winding as a cubic Rashba effect. The curious in-plane spin-momentum locking is remarkably robust and remains intact across a paramagnetic-antiferromagnetic transition in spite of spin-orbit interaction on Rh atoms being considerably weaker than the out-of-plane exchange field due to the Tb 4f moments.Entities:
Year: 2020 PMID: 32603174 DOI: 10.1103/PhysRevLett.124.237202
Source DB: PubMed Journal: Phys Rev Lett ISSN: 0031-9007 Impact factor: 9.161