Highly Non-linear Excitonic Zeeman Spin-Splitting in Composition-Engineered Artificial Atoms

E. C. Clark; F. Klotz; G. Abstreiter; J. G. Keizer; J. J. Finley; M. Bichler; M. S. Brandt; P. M. Koenraad; S. Kapfinger; T. Eissfeller

arxiv: 1112.2585 · v1 · pith:OX3ODW23new · submitted 2011-12-12 · ❄️ cond-mat.mes-hall

Highly Non-linear Excitonic Zeeman Spin-Splitting in Composition-Engineered Artificial Atoms

V. Jovanov , T. Eissfeller , S. Kapfinger , E. C. Clark , F. Klotz , M. Bichler , J. G. Keizer , P. M. Koenraad

show 3 more authors

M. S. Brandt G. Abstreiter J. J. Finley

This is my paper

classification ❄️ cond-mat.mes-hall

keywords zeemannon-lineardotsenhanceexcitonicquantumartificialatoms

0 comments

read the original abstract

Non-linear Zeeman splitting of neutral excitons is observed in composition engineered In(x)Ga(1-x)As self-assembled quantum dots and its microscopic origin is explained. Eight-band k.p simulations, performed using realistic dot parameters extracted from cross-sectional scanning tunneling microscopy, reveal that a quadratic contribution to the Zeeman energy originates from a spin dependent mixing of heavy and light hole orbital states in the dot. The dilute In-composition (x<0.35) and large lateral size (40-50 nm) of the quantum dots investigated is shown to strongly enhance the non-linear excitonic Zeeman gap, providing a blueprint to enhance such magnetic non-linearities via growth engineering.

This paper has not been read by Pith yet.

Highly Non-linear Excitonic Zeeman Spin-Splitting in Composition-Engineered Artificial Atoms

discussion (0)