Nonequilibrium electron transport through quantum dots in the Kondo regime: Contributed paper to the International Conference on Low TemperaturePhysics LT24, Orlando, Florida (2005).

Peter Wölfle; Jens Paaske; Achim Rosch; Johann Kroha

Nonequilibrium electron transport through quantum dots in the Kondo regime: Contributed paper to the International Conference on Low TemperaturePhysics LT24, Orlando, Florida (2005).

Peter Wölfle, Jens Paaske, Achim Rosch, Johann Kroha

Condensed Matter Physics

406 Downloads (Pure)

Abstract

Electron transport at large bias voltage through quantum dots in the Kondo regime is described within the perturbative renormalization group extended to nonequilibrium. The conductance, local magnetization, dynamical spin susceptibility and local spectral function are calculated. We show how the Kondo effect is suppressed by nonequilibrium decoherence and how it is generated in excited states by a bias voltage.

Original language	English
Publication date	2005
Publication status	Published - 2005

Access to Document

Confpap LT24 Submitted manuscript, 49 KB

Cite this

@conference{57cfad9924304d25ae46b6d62f3dc684,

title = "Nonequilibrium electron transport through quantum dots in the Kondo regime: Contributed paper to the International Conference on Low TemperaturePhysics LT24, Orlando, Florida (2005).",

abstract = "Electron transport at large bias voltage through quantum dots in the Kondo regime is described within the perturbative renormalization group extended to nonequilibrium. The conductance, local magnetization, dynamical spin susceptibility and local spectral function are calculated. We show how the Kondo effect is suppressed by nonequilibrium decoherence and how it is generated in excited states by a bias voltage.",

author = "Peter W{\"o}lfle and Jens Paaske and Achim Rosch and Johann Kroha",

year = "2005",

language = "English",

}

TY - CONF

T1 - Nonequilibrium electron transport through quantum dots in the Kondo regime

T2 - Contributed paper to the International Conference on Low TemperaturePhysics LT24, Orlando, Florida (2005).

AU - Wölfle, Peter

AU - Paaske, Jens

AU - Rosch, Achim

AU - Kroha, Johann

PY - 2005

Y1 - 2005

N2 - Electron transport at large bias voltage through quantum dots in the Kondo regime is described within the perturbative renormalization group extended to nonequilibrium. The conductance, local magnetization, dynamical spin susceptibility and local spectral function are calculated. We show how the Kondo effect is suppressed by nonequilibrium decoherence and how it is generated in excited states by a bias voltage.

AB - Electron transport at large bias voltage through quantum dots in the Kondo regime is described within the perturbative renormalization group extended to nonequilibrium. The conductance, local magnetization, dynamical spin susceptibility and local spectral function are calculated. We show how the Kondo effect is suppressed by nonequilibrium decoherence and how it is generated in excited states by a bias voltage.

M3 - Paper

ER -

Nonequilibrium electron transport through quantum dots in the Kondo regime: Contributed paper to the International Conference on Low TemperaturePhysics LT24, Orlando, Florida (2005).

Abstract

Access to Document

Fingerprint

Cite this