Optically excited multi-band conduction in LaAlO3/SrTiO3 heterostructures

A. Brinkman; A. Granados del Aguila; A. McCollam; G. Rijnders; H. Hilgenkamp; J. C. Maan; M. K. Kruize; P. C. M. Christianen; S. Wenderich; U. Zeitler

arxiv: 1211.4778 · v1 · pith:AIGYQKUOnew · submitted 2012-11-20 · ❄️ cond-mat.mtrl-sci

Optically excited multi-band conduction in LaAlO3/SrTiO3 heterostructures

V. K. Guduru , A. Granados del Aguila , S. Wenderich , M. K. Kruize , A. McCollam , P. C. M. Christianen , U. Zeitler , A. Brinkman

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G. Rijnders H. Hilgenkamp J. C. Maan

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keywords illuminationchannelelectronlaalo3srtio3mobilityphoto-excitedresistance

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The low-temperature resistance of a conducting LaAlO3/SrTiO3 interface with a 10 nm thick LaAlO3 film decreases by more than 50% after illumination with light of energy higher than the SrTiO3 band-gap. We explain our observations by optical excitation of an additional high mobility electron channel, which is spatially separated from the photo-excited holes. After illumination, we measure a strongly non-linear Hall resistance which is governed by the concentration and mobility of the photo-excited carriers. This can be explained within a two-carrier model where illumination creates a high-mobility electron channel in addition to a low-mobility electron channel which exists before illumination.

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Optically excited multi-band conduction in LaAlO3/SrTiO3 heterostructures

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