Chaos, interactions, and nonequilibrium effects in the tunneling resonance spectra of ultrasmall metallic particles

Oded Agam; Ned S. Wingreen; Boris L. Altshuler; D. C. Ralph; M. Tinkham

doi:10.1103/PhysRevLett.78.1956

Chaos, interactions, and nonequilibrium effects in the tunneling resonance spectra of ultrasmall metallic particles

Oded Agam, Ned S. Wingreen, Boris L. Altshuler, D. C. Ralph, M. Tinkham

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

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Abstract

We explain the observation of clusters in the tunneling resonance spectra of ultrasmall metallic particles of a few nanometer size. Each cluster of resonances is identified with one excited single-electron state of the metal particle, shifted as a result of the different nonequilibrium occupancy configurations of the other single-electron states. Assuming the underlying classical dynamics of the electrons to be chaotic, we determine the typical shift to be Δ/g where Δ is the single particle mean level spacing and g is the dimensionless conductance of the grain.

Original language	English
Pages (from-to)	1956-1959
Number of pages	4
Journal	Physical Review Letters
Volume	78
Issue number	10
DOIs	https://doi.org/10.1103/PhysRevLett.78.1956
State	Published - 1997
Externally published	Yes

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10.1103/PhysRevLett.78.1956

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abstract = "We explain the observation of clusters in the tunneling resonance spectra of ultrasmall metallic particles of a few nanometer size. Each cluster of resonances is identified with one excited single-electron state of the metal particle, shifted as a result of the different nonequilibrium occupancy configurations of the other single-electron states. Assuming the underlying classical dynamics of the electrons to be chaotic, we determine the typical shift to be Δ/g where Δ is the single particle mean level spacing and g is the dimensionless conductance of the grain.",

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AU - Tinkham, M.

PY - 1997

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AB - We explain the observation of clusters in the tunneling resonance spectra of ultrasmall metallic particles of a few nanometer size. Each cluster of resonances is identified with one excited single-electron state of the metal particle, shifted as a result of the different nonequilibrium occupancy configurations of the other single-electron states. Assuming the underlying classical dynamics of the electrons to be chaotic, we determine the typical shift to be Δ/g where Δ is the single particle mean level spacing and g is the dimensionless conductance of the grain.

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Chaos, interactions, and nonequilibrium effects in the tunneling resonance spectra of ultrasmall metallic particles

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