Electrostatic tuning of Kondo effect in a rare-earth-doped wide-band-gap oxide

Yongfeng Li; Rui Deng; Weinan Lin; Yufeng Tian; Haiyang Peng; Jiabao Yi; Bin Yao; Tom Wu

doi:10.1103/PhysRevB.87.155151

Electrostatic tuning of Kondo effect in a rare-earth-doped wide-band-gap oxide

Yongfeng Li^*
, Rui Deng
, Weinan Lin
, Yufeng Tian
, Haiyang Peng
, Jiabao Yi
, Bin Yao
, Tom Wu

^*Corresponding author for this work

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

58 Scopus citations

Abstract

As a long-lived theme in solid-state physics, the Kondo effect reflects the many-body physics involving the short-range Coulomb interactions between itinerant electrons and localized spins in metallic materials. Here we show that the Kondo effect is present in ZnO, a prototypical wide-band-gap oxide, doped with a rare-earth element (Gd). The localized 4f electrons of Gd ions do not produce remanent magnetism, but interact strongly with the host electrons, giving rise to a saturating resistance upturn and negative magnetoresistance at low temperatures. Furthermore, the Kondo temperature and resistance can be electrostatically modulated using electric-double-layer gating with liquid ionic electrolyte. Our experiments provide the experimental evidence of tunable Kondo effect in ZnO, underscoring the magnetic interactions between localized and itinerant electrons and the emergent transport behaviors in such doped wide-band-gap oxides.

Original language	English
Article number	155151
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	87
Issue number	15
DOIs	https://doi.org/10.1103/PhysRevB.87.155151
State	Published - 29 Apr 2013
Externally published	Yes

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Condensed Matter Physics

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10.1103/PhysRevB.87.155151

Cite this

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title = "Electrostatic tuning of Kondo effect in a rare-earth-doped wide-band-gap oxide",

abstract = "As a long-lived theme in solid-state physics, the Kondo effect reflects the many-body physics involving the short-range Coulomb interactions between itinerant electrons and localized spins in metallic materials. Here we show that the Kondo effect is present in ZnO, a prototypical wide-band-gap oxide, doped with a rare-earth element (Gd). The localized 4f electrons of Gd ions do not produce remanent magnetism, but interact strongly with the host electrons, giving rise to a saturating resistance upturn and negative magnetoresistance at low temperatures. Furthermore, the Kondo temperature and resistance can be electrostatically modulated using electric-double-layer gating with liquid ionic electrolyte. Our experiments provide the experimental evidence of tunable Kondo effect in ZnO, underscoring the magnetic interactions between localized and itinerant electrons and the emergent transport behaviors in such doped wide-band-gap oxides.",

author = "Yongfeng Li and Rui Deng and Weinan Lin and Yufeng Tian and Haiyang Peng and Jiabao Yi and Bin Yao and Tom Wu",

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T1 - Electrostatic tuning of Kondo effect in a rare-earth-doped wide-band-gap oxide

AU - Li, Yongfeng

AU - Deng, Rui

AU - Lin, Weinan

AU - Tian, Yufeng

AU - Peng, Haiyang

AU - Yi, Jiabao

AU - Yao, Bin

AU - Wu, Tom

PY - 2013/4/29

Y1 - 2013/4/29

N2 - As a long-lived theme in solid-state physics, the Kondo effect reflects the many-body physics involving the short-range Coulomb interactions between itinerant electrons and localized spins in metallic materials. Here we show that the Kondo effect is present in ZnO, a prototypical wide-band-gap oxide, doped with a rare-earth element (Gd). The localized 4f electrons of Gd ions do not produce remanent magnetism, but interact strongly with the host electrons, giving rise to a saturating resistance upturn and negative magnetoresistance at low temperatures. Furthermore, the Kondo temperature and resistance can be electrostatically modulated using electric-double-layer gating with liquid ionic electrolyte. Our experiments provide the experimental evidence of tunable Kondo effect in ZnO, underscoring the magnetic interactions between localized and itinerant electrons and the emergent transport behaviors in such doped wide-band-gap oxides.

AB - As a long-lived theme in solid-state physics, the Kondo effect reflects the many-body physics involving the short-range Coulomb interactions between itinerant electrons and localized spins in metallic materials. Here we show that the Kondo effect is present in ZnO, a prototypical wide-band-gap oxide, doped with a rare-earth element (Gd). The localized 4f electrons of Gd ions do not produce remanent magnetism, but interact strongly with the host electrons, giving rise to a saturating resistance upturn and negative magnetoresistance at low temperatures. Furthermore, the Kondo temperature and resistance can be electrostatically modulated using electric-double-layer gating with liquid ionic electrolyte. Our experiments provide the experimental evidence of tunable Kondo effect in ZnO, underscoring the magnetic interactions between localized and itinerant electrons and the emergent transport behaviors in such doped wide-band-gap oxides.

UR - https://www.scopus.com/pages/publications/84877057664

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M3 - Article

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JO - Physical Review B - Condensed Matter and Materials Physics

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IS - 15

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ER -

Electrostatic tuning of Kondo effect in a rare-earth-doped wide-band-gap oxide

Abstract

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