Strong correlations elucidate the electronic structure and phase diagram of LaAlO3 /SrTiO3 interface

E. Maniv; M. Ben Shalom; A. Ron; M. Mograbi; A. Palevski; M. Goldstein; Y. Dagan

doi:10.1038/ncomms9239

Strong correlations elucidate the electronic structure and phase diagram of LaAlO₃ /SrTiO₃ interface

E. Maniv, M. Ben Shalom, A. Ron, M. Mograbi, A. Palevski, M. Goldstein, Y. Dagan

School of Physics and Astronomy

Tel Aviv University

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

Abstract

The interface between the two band insulators SrTiO 3 and LaAlO 3 has the unexpected properties of a two-dimensional electron gas. It is even superconducting with a transition temperature, T c, that can be tuned using gate bias V g, which controls the number of electrons added or removed from the interface. The gate bias-temperature (V g, T) phase diagram is characterized by a dome-shaped region where superconductivity occurs, that is, T c has a non-monotonic dependence on V g, similar to many unconventional superconductors. Here, we report, the frequency of the quantum resistance-oscillations versus inverse magnetic field for various V g. This frequency follows the same non-monotonic behaviour as T c; a similar trend is seen in the low field limit of the Hall coefficient. We theoretically show that electronic correlations result in a non-monotonic population of the mobile band, which can account for the experimental behaviour of the normal transport properties and the superconducting dome.

Original language	American English
Article number	8239
Journal	Nature Communications
Volume	6
DOIs	https://doi.org/10.1038/ncomms9239
State	Published - 11 Sep 2015

All Science Journal Classification (ASJC) codes

General Chemistry
General Biochemistry,Genetics and Molecular Biology
General Physics and Astronomy

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title = "Strong correlations elucidate the electronic structure and phase diagram of LaAlO3 /SrTiO3 interface",

abstract = "The interface between the two band insulators SrTiO 3 and LaAlO 3 has the unexpected properties of a two-dimensional electron gas. It is even superconducting with a transition temperature, T c, that can be tuned using gate bias V g, which controls the number of electrons added or removed from the interface. The gate bias-temperature (V g, T) phase diagram is characterized by a dome-shaped region where superconductivity occurs, that is, T c has a non-monotonic dependence on V g, similar to many unconventional superconductors. Here, we report, the frequency of the quantum resistance-oscillations versus inverse magnetic field for various V g. This frequency follows the same non-monotonic behaviour as T c; a similar trend is seen in the low field limit of the Hall coefficient. We theoretically show that electronic correlations result in a non-monotonic population of the mobile band, which can account for the experimental behaviour of the normal transport properties and the superconducting dome.",

author = "E. Maniv and Shalom, \{M. Ben\} and A. Ron and M. Mograbi and A. Palevski and M. Goldstein and Y. Dagan",

note = "Funding Information: We thank I. Neder for useful discussions. Special thanks to J.-H. Park, D. Graf and Glover E. Jones for help in the magnet lab. This work was supported in part by the Israeli Science Foundation under grant number 569/13 by the Ministry of Science and Technology under contract 3-11875 and by the US-Israel bi-national science foundation (BSF) under grants 2010140 and 2014202. A portion of this work was performed at the National High Magnetic Field Laboratory, which is supported by National Science Foundation Cooperative Agreement Number DMR-0654118, the State of Florida, and the U.S. Department of Energy.",

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AU - Shalom, M. Ben

AU - Ron, A.

AU - Mograbi, M.

AU - Palevski, A.

AU - Goldstein, M.

AU - Dagan, Y.

N1 - Funding Information: We thank I. Neder for useful discussions. Special thanks to J.-H. Park, D. Graf and Glover E. Jones for help in the magnet lab. This work was supported in part by the Israeli Science Foundation under grant number 569/13 by the Ministry of Science and Technology under contract 3-11875 and by the US-Israel bi-national science foundation (BSF) under grants 2010140 and 2014202. A portion of this work was performed at the National High Magnetic Field Laboratory, which is supported by National Science Foundation Cooperative Agreement Number DMR-0654118, the State of Florida, and the U.S. Department of Energy.

PY - 2015/9/11

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N2 - The interface between the two band insulators SrTiO 3 and LaAlO 3 has the unexpected properties of a two-dimensional electron gas. It is even superconducting with a transition temperature, T c, that can be tuned using gate bias V g, which controls the number of electrons added or removed from the interface. The gate bias-temperature (V g, T) phase diagram is characterized by a dome-shaped region where superconductivity occurs, that is, T c has a non-monotonic dependence on V g, similar to many unconventional superconductors. Here, we report, the frequency of the quantum resistance-oscillations versus inverse magnetic field for various V g. This frequency follows the same non-monotonic behaviour as T c; a similar trend is seen in the low field limit of the Hall coefficient. We theoretically show that electronic correlations result in a non-monotonic population of the mobile band, which can account for the experimental behaviour of the normal transport properties and the superconducting dome.

AB - The interface between the two band insulators SrTiO 3 and LaAlO 3 has the unexpected properties of a two-dimensional electron gas. It is even superconducting with a transition temperature, T c, that can be tuned using gate bias V g, which controls the number of electrons added or removed from the interface. The gate bias-temperature (V g, T) phase diagram is characterized by a dome-shaped region where superconductivity occurs, that is, T c has a non-monotonic dependence on V g, similar to many unconventional superconductors. Here, we report, the frequency of the quantum resistance-oscillations versus inverse magnetic field for various V g. This frequency follows the same non-monotonic behaviour as T c; a similar trend is seen in the low field limit of the Hall coefficient. We theoretically show that electronic correlations result in a non-monotonic population of the mobile band, which can account for the experimental behaviour of the normal transport properties and the superconducting dome.

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Strong correlations elucidate the electronic structure and phase diagram of LaAlO₃ /SrTiO₃ interface

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