Interplay of spin-orbit coupling and Zeeman effect probed by Kondo resonance in a carbon nanotube quantum dot

Yann Wen Lan; K. Aravind; Cen Shawn Wu; Chieh Hsiung Kuan; Kuei Shu Chang-Liao; Chii Dong Chen

doi:10.1016/j.carbon.2012.04.001

Interplay of spin-orbit coupling and Zeeman effect probed by Kondo resonance in a carbon nanotube quantum dot

Yann Wen Lan, K. Aravind, Cen Shawn Wu, Chieh Hsiung Kuan, Kuei Shu Chang-Liao, Chii Dong Chen^*

^*Corresponding author for this work

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

7 Citations (Scopus)

Abstract

The spin orbit interaction in a carbon nanotube is probed by Kondo resonance. Spin orbit interaction lifts level degeneracy and leads to additional satellite current peaks along with the zero-bias Kondo resonance peak. From the positions of satellite peaks, the spin-orbit interaction energy Δ _so is determined to be 0.38 meV. In the presence of a parallel magnetic field, the satellite peaks split into two; one follows spin-Zeeman dependence with a g-factor of 1.91 and the other one follows orbital-Zeeman dependence with a 2μ _orb value of 170 μeV/T. The zero-bias Kondo resonance peak also displays a spin-Zeeman dependence but has an offset in magnetic field of 2.25 T, consistent with the value of Δ _so/ 2μ _orb obtained independently.

Original language	English
Pages (from-to)	3748-3752
Number of pages	5
Journal	Carbon
Volume	50
Issue number	10
DOIs	https://doi.org/10.1016/j.carbon.2012.04.001
Publication status	Published - 2012 Aug
Externally published	Yes

ASJC Scopus subject areas

Chemistry(all)
Materials Science(all)

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10.1016/j.carbon.2012.04.001

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@article{8dcbc3fecf5c44138152ad28a8427dac,

title = "Interplay of spin-orbit coupling and Zeeman effect probed by Kondo resonance in a carbon nanotube quantum dot",

abstract = "The spin orbit interaction in a carbon nanotube is probed by Kondo resonance. Spin orbit interaction lifts level degeneracy and leads to additional satellite current peaks along with the zero-bias Kondo resonance peak. From the positions of satellite peaks, the spin-orbit interaction energy Δ so is determined to be 0.38 meV. In the presence of a parallel magnetic field, the satellite peaks split into two; one follows spin-Zeeman dependence with a g-factor of 1.91 and the other one follows orbital-Zeeman dependence with a 2μ orb value of 170 μeV/T. The zero-bias Kondo resonance peak also displays a spin-Zeeman dependence but has an offset in magnetic field of 2.25 T, consistent with the value of Δ so/ 2μ orb obtained independently.",

author = "Lan, {Yann Wen} and K. Aravind and Wu, {Cen Shawn} and Kuan, {Chieh Hsiung} and Chang-Liao, {Kuei Shu} and Chen, {Chii Dong}",

note = "Funding Information: Fruitful discussions with Guang-Yu Guo, Chung-Hou Chung, Ming-Che Chang, Hsiu-Hau Lin, Cheng-Chung Chi, Min-Fa Lin are acknowledged. We also like to thank Yi-Lun Lee, Hsun-Chung Wu, Chwen Yu, Ming-Chou Lin, Shui-Jin Lai for their assistance during the course of this work. This research was funded by the National Science Council of Taiwan under contract Nos. NSC 98-2112-M-001-023-MY3 and NSC 100-2627-M-001-007 . Technical support from NanoCore, the Core Facilities for Nanoscience and Nanotechnology at Academia Sinica, is acknowledged.",

year = "2012",

month = aug,

doi = "10.1016/j.carbon.2012.04.001",

language = "English",

volume = "50",

pages = "3748--3752",

journal = "Carbon",

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T1 - Interplay of spin-orbit coupling and Zeeman effect probed by Kondo resonance in a carbon nanotube quantum dot

AU - Lan, Yann Wen

AU - Aravind, K.

AU - Wu, Cen Shawn

AU - Kuan, Chieh Hsiung

AU - Chang-Liao, Kuei Shu

AU - Chen, Chii Dong

N1 - Funding Information: Fruitful discussions with Guang-Yu Guo, Chung-Hou Chung, Ming-Che Chang, Hsiu-Hau Lin, Cheng-Chung Chi, Min-Fa Lin are acknowledged. We also like to thank Yi-Lun Lee, Hsun-Chung Wu, Chwen Yu, Ming-Chou Lin, Shui-Jin Lai for their assistance during the course of this work. This research was funded by the National Science Council of Taiwan under contract Nos. NSC 98-2112-M-001-023-MY3 and NSC 100-2627-M-001-007 . Technical support from NanoCore, the Core Facilities for Nanoscience and Nanotechnology at Academia Sinica, is acknowledged.

PY - 2012/8

Y1 - 2012/8

N2 - The spin orbit interaction in a carbon nanotube is probed by Kondo resonance. Spin orbit interaction lifts level degeneracy and leads to additional satellite current peaks along with the zero-bias Kondo resonance peak. From the positions of satellite peaks, the spin-orbit interaction energy Δ so is determined to be 0.38 meV. In the presence of a parallel magnetic field, the satellite peaks split into two; one follows spin-Zeeman dependence with a g-factor of 1.91 and the other one follows orbital-Zeeman dependence with a 2μ orb value of 170 μeV/T. The zero-bias Kondo resonance peak also displays a spin-Zeeman dependence but has an offset in magnetic field of 2.25 T, consistent with the value of Δ so/ 2μ orb obtained independently.

AB - The spin orbit interaction in a carbon nanotube is probed by Kondo resonance. Spin orbit interaction lifts level degeneracy and leads to additional satellite current peaks along with the zero-bias Kondo resonance peak. From the positions of satellite peaks, the spin-orbit interaction energy Δ so is determined to be 0.38 meV. In the presence of a parallel magnetic field, the satellite peaks split into two; one follows spin-Zeeman dependence with a g-factor of 1.91 and the other one follows orbital-Zeeman dependence with a 2μ orb value of 170 μeV/T. The zero-bias Kondo resonance peak also displays a spin-Zeeman dependence but has an offset in magnetic field of 2.25 T, consistent with the value of Δ so/ 2μ orb obtained independently.

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Interplay of spin-orbit coupling and Zeeman effect probed by Kondo resonance in a carbon nanotube quantum dot

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