2023 Help me understand this report
Quantum transport in graphene nanoribbon networks: complexity reduction by a network decimation algorithm
Abstract: We study electronic quantum transport in graphene nanoribbon (GNR) networks on mesoscopic length scales. We focus on zigzag GNRs and investigate the conductance properties of statistical networks. To this end we use a density-functional-based tight-binding model to determine the electronic structure and quantum transport theory to calculate electronic transport properties. We then introduce a new efficient network decimation algorithm that reduces the complexity in generic GNR networks. We compare our results …
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“…This is illustrated in Fig. 4, and we refer the reader to [4] for details on this powerful semiclassical method. An efficient method to characterise the coupling strength is to use the resonance splitting as a measure.…”
Section: Discussionmentioning
confidence: 99%
“…This is illustrated in Fig. 4, and we refer the reader to [4] for details on this powerful semiclassical method. An efficient method to characterise the coupling strength is to use the resonance splitting as a measure.…”
Section: Discussionmentioning
confidence: 99%
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