Nature of orbital and spin Rashba coupling in the surface bands of SrTiO3 and KTaO3

Panjin Kim; Kyeong Tae Kang; Gyungchoon Go; Jung Hoon Han

doi:10.1103/PhysRevB.90.205423

Nature of orbital and spin Rashba coupling in the surface bands of SrTiO3 and KTaO3

Panjin Kim, Kyeong Tae Kang, Gyungchoon Go, Jung Hoon Han

Sungkyunkwan University

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

31 Scopus citations

Abstract

Tight-binding models for the recently observed surface electronic bands of SrTiO3 and KTaO3 are analyzed with a view to bringing out the relevance of momentum-space chiral angular momentum structures of both orbital and spin characters. The orbital and the accompanying spin angular momentum structures reveal complex linear and cubic dependencies in the momentum k (linear and cubic Rashba effects, respectively) in a band-specific manner. Analytical expressions for the cubic orbital and spin Rashba effects are derived by way of a unitary transformation technique we developed, and compared to numerical calculations. The cubic Rashba effect appears as in-plane modulations due to the C4v symmetry of the perovskite structure.

Original language	English
Article number	205423
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	90
Issue number	20
DOIs	https://doi.org/10.1103/PhysRevB.90.205423
State	Published - 18 Nov 2014

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title = "Nature of orbital and spin Rashba coupling in the surface bands of SrTiO3 and KTaO3",

abstract = "Tight-binding models for the recently observed surface electronic bands of SrTiO3 and KTaO3 are analyzed with a view to bringing out the relevance of momentum-space chiral angular momentum structures of both orbital and spin characters. The orbital and the accompanying spin angular momentum structures reveal complex linear and cubic dependencies in the momentum k (linear and cubic Rashba effects, respectively) in a band-specific manner. Analytical expressions for the cubic orbital and spin Rashba effects are derived by way of a unitary transformation technique we developed, and compared to numerical calculations. The cubic Rashba effect appears as in-plane modulations due to the C4v symmetry of the perovskite structure.",

author = "Panjin Kim and Kang, {Kyeong Tae} and Gyungchoon Go and Han, {Jung Hoon}",

note = "Publisher Copyright: {\textcopyright} 2014 American Physical Society.",

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doi = "10.1103/PhysRevB.90.205423",

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AU - Kim, Panjin

AU - Kang, Kyeong Tae

AU - Go, Gyungchoon

AU - Han, Jung Hoon

PY - 2014/11/18

Y1 - 2014/11/18

N2 - Tight-binding models for the recently observed surface electronic bands of SrTiO3 and KTaO3 are analyzed with a view to bringing out the relevance of momentum-space chiral angular momentum structures of both orbital and spin characters. The orbital and the accompanying spin angular momentum structures reveal complex linear and cubic dependencies in the momentum k (linear and cubic Rashba effects, respectively) in a band-specific manner. Analytical expressions for the cubic orbital and spin Rashba effects are derived by way of a unitary transformation technique we developed, and compared to numerical calculations. The cubic Rashba effect appears as in-plane modulations due to the C4v symmetry of the perovskite structure.

AB - Tight-binding models for the recently observed surface electronic bands of SrTiO3 and KTaO3 are analyzed with a view to bringing out the relevance of momentum-space chiral angular momentum structures of both orbital and spin characters. The orbital and the accompanying spin angular momentum structures reveal complex linear and cubic dependencies in the momentum k (linear and cubic Rashba effects, respectively) in a band-specific manner. Analytical expressions for the cubic orbital and spin Rashba effects are derived by way of a unitary transformation technique we developed, and compared to numerical calculations. The cubic Rashba effect appears as in-plane modulations due to the C4v symmetry of the perovskite structure.

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JO - Physical Review B - Condensed Matter and Materials Physics

JF - Physical Review B - Condensed Matter and Materials Physics

IS - 20

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ER -

Nature of orbital and spin Rashba coupling in the surface bands of SrTiO3 and KTaO3

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