Correlation-function spectroscopy of inelastic lifetime in heavily doped GaAs heterostructures

J. Könemann; P. König; T. Schmidt; E. McCann; Vladimir I. Fal’ko; R. J. Haug

doi:10.1103/PhysRevB.64.155314

Correlation-function spectroscopy of inelastic lifetime in heavily doped GaAs heterostructures

J. Könemann, P. König, T. Schmidt, E. McCann, Vladimir I. Fal’ko, R. J. Haug

National Graphene Institute - Administration

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

Abstract

Measurements of resonant tunneling through a localized impurity state are used to probe fluctuations in the local density of states of heavily doped GaAs. The measured differential conductance is analyzed in terms of correlation functions with respect to voltage. A qualitative picture based on the scaling theory of Thouless is developed to relate the observed fluctuations to the statistics of single-particle wave functions. In a quantitative theory correlation functions are calculated. By comparing the experimental and theoretical correlation functions, the effective dimensionality of the emitter is analyzed and the dependence of the inelastic lifetime on energy is extracted.

Original language	English
Article number	155314
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	64
Issue number	15
DOIs	https://doi.org/10.1103/PhysRevB.64.155314
Publication status	Published - 19 Sept 2001

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abstract = "Measurements of resonant tunneling through a localized impurity state are used to probe fluctuations in the local density of states of heavily doped GaAs. The measured differential conductance is analyzed in terms of correlation functions with respect to voltage. A qualitative picture based on the scaling theory of Thouless is developed to relate the observed fluctuations to the statistics of single-particle wave functions. In a quantitative theory correlation functions are calculated. By comparing the experimental and theoretical correlation functions, the effective dimensionality of the emitter is analyzed and the dependence of the inelastic lifetime on energy is extracted.",

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AU - Könemann, J.

AU - König, P.

AU - Schmidt, T.

AU - McCann, E.

AU - Fal’ko, Vladimir I.

AU - Haug, R. J.

PY - 2001/9/19

Y1 - 2001/9/19

N2 - Measurements of resonant tunneling through a localized impurity state are used to probe fluctuations in the local density of states of heavily doped GaAs. The measured differential conductance is analyzed in terms of correlation functions with respect to voltage. A qualitative picture based on the scaling theory of Thouless is developed to relate the observed fluctuations to the statistics of single-particle wave functions. In a quantitative theory correlation functions are calculated. By comparing the experimental and theoretical correlation functions, the effective dimensionality of the emitter is analyzed and the dependence of the inelastic lifetime on energy is extracted.

AB - Measurements of resonant tunneling through a localized impurity state are used to probe fluctuations in the local density of states of heavily doped GaAs. The measured differential conductance is analyzed in terms of correlation functions with respect to voltage. A qualitative picture based on the scaling theory of Thouless is developed to relate the observed fluctuations to the statistics of single-particle wave functions. In a quantitative theory correlation functions are calculated. By comparing the experimental and theoretical correlation functions, the effective dimensionality of the emitter is analyzed and the dependence of the inelastic lifetime on energy is extracted.

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ER -

Correlation-function spectroscopy of inelastic lifetime in heavily doped GaAs heterostructures

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