Spin-orbit coupling driven orbital-selective doping effect in Sr2Ru1-xIrx O4

Junyoung Kwon; Beom Seo Kim; Mi Kyung Kim; Jonathan Denlinger; Aaron Bostwick; Eli Rotenberg; Nara Lee; Hwan Young Choi; Jae Young Moon; Young Jai Choi; Junsik Mun; Miyoung Kim; Yoshiyuki Yoshida; Wonshik Kyung; Changyoung Kim

doi:10.1103/PhysRevB.103.L081104

Spin-orbit coupling driven orbital-selective doping effect in Sr2Ru1-xIrx O4

Junyoung Kwon, Beom Seo Kim, Mi Kyung Kim, Jonathan Denlinger, Aaron Bostwick, Eli Rotenberg, Nara Lee, Hwan Young Choi, Jae Young Moon, Young Jai Choi, Junsik Mun, Miyoung Kim, Yoshiyuki Yoshida, Wonshik Kyung, Changyoung Kim

Department of Physics

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

2 Citations (Scopus)

Abstract

Orbital-selective phenomena in mutliorbital systems have received much attention due to their uniqueness as well as possible connections to other phenomena. As orbital-selectiveness is mostly related to the crystal structure, finding a new control parameter other than structure would be of significant importance. Here we report discovery of an orbital-selective doping effect in Sr2Ru1-xIrxO4 (SRIO). Our systematic electronic structure study of SRIO reveals an anomalous orbital-selective doping effect and concomitant Lifshitz transitions (LTs) in the γ band. With the help of a tight-binding calculation, we find that the orbital-selective doping effect is due to variation in the spin-orbit coupling (SOC) strength. Our findings not only elucidate the mechanism of LTs in the γ band in SRIO but may also open new avenues for novel SOC-controlled orbital-selective phenomena.

Original language	English
Article number	L081104
Journal	Physical Review B
Volume	103
Issue number	8
DOIs	https://doi.org/10.1103/PhysRevB.103.L081104
Publication status	Published - 2021 Feb 12

Bibliographical note

Publisher Copyright:
© 2021 American Physical Society.

All Science Journal Classification (ASJC) codes

Electronic, Optical and Magnetic Materials
Condensed Matter Physics

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10.1103/PhysRevB.103.L081104

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title = "Spin-orbit coupling driven orbital-selective doping effect in Sr2Ru1-xIrx O4",

abstract = "Orbital-selective phenomena in mutliorbital systems have received much attention due to their uniqueness as well as possible connections to other phenomena. As orbital-selectiveness is mostly related to the crystal structure, finding a new control parameter other than structure would be of significant importance. Here we report discovery of an orbital-selective doping effect in Sr2Ru1-xIrxO4 (SRIO). Our systematic electronic structure study of SRIO reveals an anomalous orbital-selective doping effect and concomitant Lifshitz transitions (LTs) in the γ band. With the help of a tight-binding calculation, we find that the orbital-selective doping effect is due to variation in the spin-orbit coupling (SOC) strength. Our findings not only elucidate the mechanism of LTs in the γ band in SRIO but may also open new avenues for novel SOC-controlled orbital-selective phenomena.",

author = "Junyoung Kwon and Kim, {Beom Seo} and Kim, {Mi Kyung} and Jonathan Denlinger and Aaron Bostwick and Eli Rotenberg and Nara Lee and Choi, {Hwan Young} and Moon, {Jae Young} and Choi, {Young Jai} and Junsik Mun and Miyoung Kim and Yoshiyuki Yoshida and Wonshik Kyung and Changyoung Kim",

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doi = "10.1103/PhysRevB.103.L081104",

language = "English",

volume = "103",

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T1 - Spin-orbit coupling driven orbital-selective doping effect in Sr2Ru1-xIrx O4

AU - Kwon, Junyoung

AU - Kim, Beom Seo

AU - Kim, Mi Kyung

AU - Denlinger, Jonathan

AU - Bostwick, Aaron

AU - Rotenberg, Eli

AU - Lee, Nara

AU - Choi, Hwan Young

AU - Moon, Jae Young

AU - Choi, Young Jai

AU - Mun, Junsik

AU - Kim, Miyoung

AU - Yoshida, Yoshiyuki

AU - Kyung, Wonshik

AU - Kim, Changyoung

PY - 2021/2/12

Y1 - 2021/2/12

N2 - Orbital-selective phenomena in mutliorbital systems have received much attention due to their uniqueness as well as possible connections to other phenomena. As orbital-selectiveness is mostly related to the crystal structure, finding a new control parameter other than structure would be of significant importance. Here we report discovery of an orbital-selective doping effect in Sr2Ru1-xIrxO4 (SRIO). Our systematic electronic structure study of SRIO reveals an anomalous orbital-selective doping effect and concomitant Lifshitz transitions (LTs) in the γ band. With the help of a tight-binding calculation, we find that the orbital-selective doping effect is due to variation in the spin-orbit coupling (SOC) strength. Our findings not only elucidate the mechanism of LTs in the γ band in SRIO but may also open new avenues for novel SOC-controlled orbital-selective phenomena.

AB - Orbital-selective phenomena in mutliorbital systems have received much attention due to their uniqueness as well as possible connections to other phenomena. As orbital-selectiveness is mostly related to the crystal structure, finding a new control parameter other than structure would be of significant importance. Here we report discovery of an orbital-selective doping effect in Sr2Ru1-xIrxO4 (SRIO). Our systematic electronic structure study of SRIO reveals an anomalous orbital-selective doping effect and concomitant Lifshitz transitions (LTs) in the γ band. With the help of a tight-binding calculation, we find that the orbital-selective doping effect is due to variation in the spin-orbit coupling (SOC) strength. Our findings not only elucidate the mechanism of LTs in the γ band in SRIO but may also open new avenues for novel SOC-controlled orbital-selective phenomena.

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Spin-orbit coupling driven orbital-selective doping effect in Sr2Ru1-xIrx O4

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