Transport through a quantum dot with SU(4) Kondo entanglement

K. Le Hur; P. Simon; D. Loss

doi:10.1103/PhysRevB.75.035332

Transport through a quantum dot with SU(4) Kondo entanglement

K. Le Hur
, P. Simon
, D. Loss

Yale University
Université de Sherbrooke
LPMMC
University of Basel

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

Abstract

We investigate a mesoscopic setup composed of a small electron droplet (dot) coupled to a larger quantum dot (grain) also subject to Coulomb blockade as well as two macroscopic leads used as source and drain. An exotic Kondo ground state other than the standard SU(2) Fermi liquid unambiguously emerges: an SU(4) Kondo correlated liquid. The transport properties through the small dot are analyzed for this regime, through boundary conformal field theory, and allow a clear distinction with other regimes such as a two-channel spin state or a two-channel orbital state.

Original language	English
Article number	035332
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	75
Issue number	3
DOIs	https://doi.org/10.1103/PhysRevB.75.035332
Publication status	Published - 30 Jan 2007
Externally published	Yes

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10.1103/PhysRevB.75.035332

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title = "Transport through a quantum dot with SU(4) Kondo entanglement",

abstract = "We investigate a mesoscopic setup composed of a small electron droplet (dot) coupled to a larger quantum dot (grain) also subject to Coulomb blockade as well as two macroscopic leads used as source and drain. An exotic Kondo ground state other than the standard SU(2) Fermi liquid unambiguously emerges: an SU(4) Kondo correlated liquid. The transport properties through the small dot are analyzed for this regime, through boundary conformal field theory, and allow a clear distinction with other regimes such as a two-channel spin state or a two-channel orbital state.",

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N2 - We investigate a mesoscopic setup composed of a small electron droplet (dot) coupled to a larger quantum dot (grain) also subject to Coulomb blockade as well as two macroscopic leads used as source and drain. An exotic Kondo ground state other than the standard SU(2) Fermi liquid unambiguously emerges: an SU(4) Kondo correlated liquid. The transport properties through the small dot are analyzed for this regime, through boundary conformal field theory, and allow a clear distinction with other regimes such as a two-channel spin state or a two-channel orbital state.

AB - We investigate a mesoscopic setup composed of a small electron droplet (dot) coupled to a larger quantum dot (grain) also subject to Coulomb blockade as well as two macroscopic leads used as source and drain. An exotic Kondo ground state other than the standard SU(2) Fermi liquid unambiguously emerges: an SU(4) Kondo correlated liquid. The transport properties through the small dot are analyzed for this regime, through boundary conformal field theory, and allow a clear distinction with other regimes such as a two-channel spin state or a two-channel orbital state.

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DO - 10.1103/PhysRevB.75.035332

M3 - Article

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Transport through a quantum dot with SU(4) Kondo entanglement

Abstract

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