2017
DOI: 10.1016/j.physleta.2016.09.037
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Microwave emulations and tight-binding calculations of transport in polyacetylene

Abstract: International audienceA novel approach to investigate the electron transport of cis-and trans-polyacetylene chains in the single-electron approximation is presented by using microwave emulation measurements and tight-binding calculations. In the emulation we take into account the different electronic couplings due to the double bonds leading to coupled dimer chains. The relative coupling constants are adjusted by DFT calculations. For sufficiently long chains a transport band gap is observed if the double bond… Show more

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Cited by 13 publications
(14 citation statements)
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References 37 publications
(51 reference statements)
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“…The nearest neighbor distance of the resonators is on average 14 mm, while their precise distance ratios reflect the interatomic distances found by the DFT optimization of the molecule. The coupling strength between neighboring resonators decays approximately exponentially, as shown previously [47,50]. Such an exponential decay is a realistic model for slightly varying carbon-carbon bond distances, as shown for deformed graphene [57].…”
Section: Microwave Emulation Experimentssupporting
confidence: 68%
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“…The nearest neighbor distance of the resonators is on average 14 mm, while their precise distance ratios reflect the interatomic distances found by the DFT optimization of the molecule. The coupling strength between neighboring resonators decays approximately exponentially, as shown previously [47,50]. Such an exponential decay is a realistic model for slightly varying carbon-carbon bond distances, as shown for deformed graphene [57].…”
Section: Microwave Emulation Experimentssupporting
confidence: 68%
“…Non-interacting quantum systems can be emulated by means of a network of dielectric microwave resonators [43][44][45][46][47][48][49][50]. Here, we use this technique to gain insight into the local current flow in aromatic carbon molecules.…”
Section: Microwave Emulation Experimentsmentioning
confidence: 99%
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“…Applying the techniques, developed to investigate the band structure of graphene 21,22 and to emulate relativistic systems 46,47 as well as molecular systems 24 , we have performed analogous experiments to study the coherent transport in graphene nanoribbons.…”
Section: A Microwave Experimentsmentioning
confidence: 99%
“…[21][22][23][24] Such experiments are well controlled and easy to perform (in comparison to experiments with real graphene or polyacetylene) and hence, offer a versatile tool to investigate in detail the properties of these systems. In this article, we study the ballistic single-electron transport through small graphene nanoribbons by microwave transmission experiments.…”
Section: Introduction and Outlinementioning
confidence: 99%