In situ study of emerging metallicity on ion-bombarded SrTiO3 surface

Heiko Gross; Namrata Bansal; Yong Seung Kim; Seongshik Oh

doi:10.1063/1.3650254

In situ study of emerging metallicity on ion-bombarded SrTiO₃ surface

Heiko Gross, Namrata Bansal, Yong Seung Kim, Seongshik Oh

School of Arts and Sciences, New High Energy Theory Center

Research output: Contribution to journal › Article › peer-review

27 Scopus citations

Abstract

We report how argon bombardment induces metallic states on the surface of insulating SrTiO₃ at different temperatures by combining in situ conductance measurements and model calculations. At cryogenic temperatures, ionic bombardment created a thin-but much thicker than the argon-penetration depth-steady-state oxygen-vacant layer, leading to a highly-concentric metallic state. Near room temperatures, however, significant thermal diffusion occurred and the metallic state continuously diffused into the bulk, leaving only low concentration of electron carriers on the surface. Analysis of the discrepancy between the experiments and the models also provided evidence for vacancy clustering, which seems to occur during any vacancy formation process and affects the observed conductance.

Original language	English (US)
Article number	073704
Journal	Journal of Applied Physics
Volume	110
Issue number	7
DOIs	https://doi.org/10.1063/1.3650254
State	Published - Oct 1 2011

All Science Journal Classification (ASJC) codes

General Physics and Astronomy

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10.1063/1.3650254

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title = "In situ study of emerging metallicity on ion-bombarded SrTiO3 surface",

abstract = "We report how argon bombardment induces metallic states on the surface of insulating SrTiO3 at different temperatures by combining in situ conductance measurements and model calculations. At cryogenic temperatures, ionic bombardment created a thin-but much thicker than the argon-penetration depth-steady-state oxygen-vacant layer, leading to a highly-concentric metallic state. Near room temperatures, however, significant thermal diffusion occurred and the metallic state continuously diffused into the bulk, leaving only low concentration of electron carriers on the surface. Analysis of the discrepancy between the experiments and the models also provided evidence for vacancy clustering, which seems to occur during any vacancy formation process and affects the observed conductance.",

author = "Heiko Gross and Namrata Bansal and Kim, {Yong Seung} and Seongshik Oh",

note = "Funding Information: This work is supported by IAMDN of Rutgers University, National Science Foundation (NSF DMR-0845464) and Office of Naval Research (ONR N000140910749). H. G. is also supported by the German academic exchange service (DAAD 221-ISAP D/07/16496).",

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AU - Gross, Heiko

AU - Bansal, Namrata

AU - Kim, Yong Seung

AU - Oh, Seongshik

N1 - Funding Information: This work is supported by IAMDN of Rutgers University, National Science Foundation (NSF DMR-0845464) and Office of Naval Research (ONR N000140910749). H. G. is also supported by the German academic exchange service (DAAD 221-ISAP D/07/16496).

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N2 - We report how argon bombardment induces metallic states on the surface of insulating SrTiO3 at different temperatures by combining in situ conductance measurements and model calculations. At cryogenic temperatures, ionic bombardment created a thin-but much thicker than the argon-penetration depth-steady-state oxygen-vacant layer, leading to a highly-concentric metallic state. Near room temperatures, however, significant thermal diffusion occurred and the metallic state continuously diffused into the bulk, leaving only low concentration of electron carriers on the surface. Analysis of the discrepancy between the experiments and the models also provided evidence for vacancy clustering, which seems to occur during any vacancy formation process and affects the observed conductance.

AB - We report how argon bombardment induces metallic states on the surface of insulating SrTiO3 at different temperatures by combining in situ conductance measurements and model calculations. At cryogenic temperatures, ionic bombardment created a thin-but much thicker than the argon-penetration depth-steady-state oxygen-vacant layer, leading to a highly-concentric metallic state. Near room temperatures, however, significant thermal diffusion occurred and the metallic state continuously diffused into the bulk, leaving only low concentration of electron carriers on the surface. Analysis of the discrepancy between the experiments and the models also provided evidence for vacancy clustering, which seems to occur during any vacancy formation process and affects the observed conductance.

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In situ study of emerging metallicity on ion-bombarded SrTiO₃ surface

Abstract

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