Spin-orbit scattering visualized in quasiparticle interference
Abstract
In the presence of spin-orbit coupling, electron scattering off impurities depends on both spin and orbital angular momentum of electrons -- spin-orbit scattering. Although some transport properties are subject to spin-orbit scattering, experimental techniques directly accessible to this effect are limited. Here we show that a signature of spin-orbit scattering manifests itself in quasiparticle interference (QPI) imaged by spectroscopic-imaging scanning tunneling microscopy. The experimental data of a polar semiconductor BiTeI are well reproduced by numerical simulations with the -matrix formalism that include not only scalar scattering normally adopted but also spin-orbit scattering stronger than scalar scattering. To accelerate the simulations, we extend the standard efficient method of QPI calculation for momentum-independent scattering to be applicable even for spin-orbit scattering. We further identify a selection rule that makes spin-orbit scattering visible in the QPI pattern. These results demonstrate that spin-orbit scattering can exert predominant influence on QPI patterns and thus suggest that QPI measurement is available to detect spin-orbit scattering.
Cite
@article{arxiv.1703.06234,
title = {Spin-orbit scattering visualized in quasiparticle interference},
author = {Y. Kohsaka and T. Machida and K. Iwaya and M. Kanou and T. Hanaguri and T. Sasagawa},
journal= {arXiv preprint arXiv:1703.06234},
year = {2017}
}
Comments
21 pages, 6 figures