Many Body Effects on Electron Tunneling through Quantum Dots in an Aharonov-Bohm Circuit

Wataru Izumida; Osamu Sakai; Yukihiro Shimizu

doi:10.1143/JPSJ.66.717

Many Body Effects on Electron Tunneling through Quantum Dots in an Aharonov-Bohm Circuit

Wataru Izumida, Osamu Sakai, Yukihiro Shimizu

Tohoku University

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

73 Citations (Scopus)

Abstract

Tunneling conductance of an Aharonov-Bohm circuit including two quantum dots is calculated based on the general expression of the conductance in the linear response regime of the bias voltage. The calculation is performed in a wide temperature range by using numerical renormalization group method. Various types of AB oscillations appear depending on the temperature and the potential depth of the dots. Especially, AB oscillations have strong higher harmonics components as a function of the magnetic flux when the potential of the dots is deep. This is related to the crossover of the spin state due to the Kondo effect on quantum dots. When the temperature rises up, the amplitude of the AB oscillations becomes smaller reflecting the breaking of the coherency.

Original language	English
Pages (from-to)	717-726
Number of pages	10
Journal	Journal of the Physical Society of Japan
Volume	66
Issue number	3
DOIs	https://doi.org/10.1143/JPSJ.66.717
Publication status	Published - 1997 Mar

Keywords

Aharonov-Bohm effect
Kondo effect
Numerical renormalization group method
Quantum dots

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10.1143/JPSJ.66.717

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abstract = "Tunneling conductance of an Aharonov-Bohm circuit including two quantum dots is calculated based on the general expression of the conductance in the linear response regime of the bias voltage. The calculation is performed in a wide temperature range by using numerical renormalization group method. Various types of AB oscillations appear depending on the temperature and the potential depth of the dots. Especially, AB oscillations have strong higher harmonics components as a function of the magnetic flux when the potential of the dots is deep. This is related to the crossover of the spin state due to the Kondo effect on quantum dots. When the temperature rises up, the amplitude of the AB oscillations becomes smaller reflecting the breaking of the coherency.",

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AU - Izumida, Wataru

AU - Sakai, Osamu

AU - Shimizu, Yukihiro

PY - 1997/3

Y1 - 1997/3

N2 - Tunneling conductance of an Aharonov-Bohm circuit including two quantum dots is calculated based on the general expression of the conductance in the linear response regime of the bias voltage. The calculation is performed in a wide temperature range by using numerical renormalization group method. Various types of AB oscillations appear depending on the temperature and the potential depth of the dots. Especially, AB oscillations have strong higher harmonics components as a function of the magnetic flux when the potential of the dots is deep. This is related to the crossover of the spin state due to the Kondo effect on quantum dots. When the temperature rises up, the amplitude of the AB oscillations becomes smaller reflecting the breaking of the coherency.

AB - Tunneling conductance of an Aharonov-Bohm circuit including two quantum dots is calculated based on the general expression of the conductance in the linear response regime of the bias voltage. The calculation is performed in a wide temperature range by using numerical renormalization group method. Various types of AB oscillations appear depending on the temperature and the potential depth of the dots. Especially, AB oscillations have strong higher harmonics components as a function of the magnetic flux when the potential of the dots is deep. This is related to the crossover of the spin state due to the Kondo effect on quantum dots. When the temperature rises up, the amplitude of the AB oscillations becomes smaller reflecting the breaking of the coherency.

KW - Aharonov-Bohm effect

KW - Kondo effect

KW - Numerical renormalization group method

KW - Quantum dots

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Many Body Effects on Electron Tunneling through Quantum Dots in an Aharonov-Bohm Circuit

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