Quantum criticality perspective on the charging of narrow quantum-dot levels

V. Kashcheyevs; C. Karrasch; T. Hecht; A. Weichselbaum; V. Meden; A. Schiller

doi:10.1103/PhysRevLett.102.136805

Quantum criticality perspective on the charging of narrow quantum-dot levels

V. Kashcheyevs^*
, C. Karrasch
, T. Hecht
, A. Weichselbaum
, V. Meden
, A. Schiller

^*Corresponding author for this work

Faculty of Science and Technology

RWTH Aachen University
Ludwig Maximilian University of Munich
Hebrew University of Jerusalem

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

16 Citations (Scopus)

Abstract

Understanding the charging of exceptionally narrow levels in quantum dots in the presence of interactions remains a challenge within mesoscopic physics. We address this fundamental question in the generic model of a narrow level capacitively coupled to a broad one. Using bosonization we show that for arbitrary capacitive coupling charging can be described by an analogy to the magnetization in the anisotropic Kondo model, featuring a low-energy crossover scale that depends in a power-law fashion on the tunneling amplitude to the level. Explicit analytical expressions for the exponent are derived and confirmed by detailed numerical and functional renormalization-group calculations.

Original language	English
Article number	136805
Journal	Physical Review Letters
Volume	102
Issue number	13
DOIs	https://doi.org/10.1103/PhysRevLett.102.136805
Publication status	Published - 30 Mar 2009

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AU - Meden, V.

AU - Schiller, A.

PY - 2009/3/30

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N2 - Understanding the charging of exceptionally narrow levels in quantum dots in the presence of interactions remains a challenge within mesoscopic physics. We address this fundamental question in the generic model of a narrow level capacitively coupled to a broad one. Using bosonization we show that for arbitrary capacitive coupling charging can be described by an analogy to the magnetization in the anisotropic Kondo model, featuring a low-energy crossover scale that depends in a power-law fashion on the tunneling amplitude to the level. Explicit analytical expressions for the exponent are derived and confirmed by detailed numerical and functional renormalization-group calculations.

AB - Understanding the charging of exceptionally narrow levels in quantum dots in the presence of interactions remains a challenge within mesoscopic physics. We address this fundamental question in the generic model of a narrow level capacitively coupled to a broad one. Using bosonization we show that for arbitrary capacitive coupling charging can be described by an analogy to the magnetization in the anisotropic Kondo model, featuring a low-energy crossover scale that depends in a power-law fashion on the tunneling amplitude to the level. Explicit analytical expressions for the exponent are derived and confirmed by detailed numerical and functional renormalization-group calculations.

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Quantum criticality perspective on the charging of narrow quantum-dot levels

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