Stirring Potential for Indirect Excitons

M.W. Hasling; Y.Y. Kuznetsova; P. Andreakou; J.R. Leonard; E.V.; Calman; C. Dorow; L.V. Butov; M. Hanson; and A.C. Gossard

arXiv:1410.0622·cond-mat.mes-hall·February 20, 2015

Stirring Potential for Indirect Excitons

M.W. Hasling, Y.Y. Kuznetsova, P. Andreakou, J.R. Leonard, E.V., Calman, C. Dorow, L.V. Butov, M. Hanson, and A.C. Gossard

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TL;DR

This paper presents an experimental demonstration of a stirring potential for indirect excitons, where the potential's properties are controlled by electrode design and AC voltage parameters, enabling manipulation of exciton motion.

Contribution

It introduces a novel stirring potential for indirect excitons with tunable properties via electrode periodicity and AC voltage, advancing exciton manipulation techniques.

Findings

01

Successful experimental proof of a stirring potential for indirect excitons

02

Control of potential amplitude through AC voltage

03

Adjustment of angular velocity via AC frequency

Abstract

We demonstrate experimental proof of principle for a stirring potential for indirect excitons. The azimuthal wavelength of this stirring potential is set by the electrode periodicity, the amplitude is controlled by the applied AC voltage, and the angular velocity is controlled by the AC frequency.

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