Publikation: Electrical transport through a single-electron transistor strongly coupled to an oscillator
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2006
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Physical Review B. 2006, 74, pp. 205336-1, 10. Available under: doi: 10.1103/PhysRevB.74.205336
Zusammenfassung
We investigate electrical transport through a single-electron transistor coupled to a nanomechanical oscillator. Using a combination of a master-equation approach and a numerical Monte Carlo method, we calculate the average current and the current noise in the strong-coupling regime, studying deviations from previously derived analytic results valid in the limit of weak coupling. After generalizing the weak-coupling theory to enable the calculation of higher cumulants of the current, we use our numerical approach to study how the third cumulant is affected in the strong-coupling regime. In this case, we find an interesting crossover between a weak-coupling transport regime where the third cumulant heavily depends on the frequency of the oscillator to one where it becomes practically independent of this parameter. Finally, we study the spectrum of the transport noise and show that the two peaks found in the weak-coupling limit merge on increasing the coupling strength. Our calculation of the frequency dependence of the noise also allows one to describe how transport-induced damping of the mechanical oscillations is affected in the strong-coupling regime.
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DOIRON, Charles B., Wolfgang BELZIG, Christoph BRUDER, 2006. Electrical transport through a single-electron transistor strongly coupled to an oscillator. In: Physical Review B. 2006, 74, pp. 205336-1, 10. Available under: doi: 10.1103/PhysRevB.74.205336BibTex
@article{Doiron2006Elect-5290,
year={2006},
doi={10.1103/PhysRevB.74.205336},
title={Electrical transport through a single-electron transistor strongly coupled to an oscillator},
volume={74},
journal={Physical Review B},
pages={205336--1, 10},
author={Doiron, Charles B. and Belzig, Wolfgang and Bruder, Christoph}
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<dcterms:abstract xml:lang="eng">We investigate electrical transport through a single-electron transistor coupled to a nanomechanical oscillator. Using a combination of a master-equation approach and a numerical Monte Carlo method, we calculate the average current and the current noise in the strong-coupling regime, studying deviations from previously derived analytic results valid in the limit of weak coupling. After generalizing the weak-coupling theory to enable the calculation of higher cumulants of the current, we use our numerical approach to study how the third cumulant is affected in the strong-coupling regime. In this case, we find an interesting crossover between a weak-coupling transport regime where the third cumulant heavily depends on the frequency of the oscillator to one where it becomes practically independent of this parameter. Finally, we study the spectrum of the transport noise and show that the two peaks found in the weak-coupling limit merge on increasing the coupling strength. Our calculation of the frequency dependence of the noise also allows one to describe how transport-induced damping of the mechanical oscillations is affected in the strong-coupling regime.</dcterms:abstract>
<dcterms:bibliographicCitation>First publ. in: Physical Review B 74 (2006), pp. 205336-1-10</dcterms:bibliographicCitation>
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