Monday, March 5, 2012

1203.0520 (Philipp Hoepfner et al.)

Three-Dimensional Spin Rotations at the Fermi Surface of a Strongly
Spin-Orbit Coupled Surface System
   [PDF]

Philipp Hoepfner, Joerg Schaefer, Andrzej Fleszar, Jan Hugo Dil, Bartosz Slomski, Fabian Meier, Christoph Loho, Christian Blumenstein, Luc Patthey, Werner Hanke, Ralph Claessen
The spin texture of the metallic two-dimensional electron system (root3 x root3)-Au/Ge(111) is revealed by fully three-dimensional spin-resolved photoemission, as well as by density functional calculations. The large hexagonal Fermi surface, generated by the Au atoms, shows a significant splitting due to spin-orbit interactions. The planar components of the spin exhibit helical character, accompanied by a strong out-of-plane spin component with alternating signs along the six Fermi surface sections. Moreover, in-plane spin rotations towards a radial direction are observed close to the hexagon corners. Such a threefold-symmetric spin pattern is not described by the conventional Rashba model. Instead, it reveals an interplay with Dresselhaus-like spin-orbit effects as a result of the crystalline anisotropies.
View original: http://arxiv.org/abs/1203.0520

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