2020
DOI: 10.1103/physrevresearch.2.033458
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Transport across twist angle domains in moiré graphene

Abstract: Many experiments in twisted bilayer graphene (TBG) differ from each other in terms of the details of their phase diagrams. Few controllable aspects aside, this discrepancy is largely believed to arise from the presence of a varying degree of twist angle inhomogeneity across different samples. Real-space maps indeed reveal TBG devices splitting into several large domains of different twist angles. Motivated by these observations, we study the quantum mechanical tunneling across a domain wall (DW) that separates… Show more

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Cited by 44 publications
(18 citation statements)
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References 92 publications
(155 reference statements)
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“…It is noteworthy that there is no reduction in transmission when doubling the width of the angle disorder barrier. This suggest that the transmission through angle disorder barriers of many moiré periods could decay sub-exponentially with the barrier width, in contrast to previous predictions [72]. Another interesting aspect is the complete transmission of normal incidence carriers near Γ.…”
contrasting
confidence: 71%
See 1 more Smart Citation
“…It is noteworthy that there is no reduction in transmission when doubling the width of the angle disorder barrier. This suggest that the transmission through angle disorder barriers of many moiré periods could decay sub-exponentially with the barrier width, in contrast to previous predictions [72]. Another interesting aspect is the complete transmission of normal incidence carriers near Γ.…”
contrasting
confidence: 71%
“…The bandwidth of the flat bands, the gaps to remote bands and the sharpness of the van-Hove peaks were found to be sensitive to angle disorder. So far, transport in the presence of angle disorder has only been studied with a two-band version of the continuum model [72] and was limited to tunneling through narrow angle domain walls. Another recent study [73] describes the transmission of Dirac particles through quasi-1D angle domains, modelled as a change in the Fermi velocity of carriers plus a gauge field that shifts Dirac points in momentum space.…”
mentioning
confidence: 99%
“…Thus, an important question is this: what weakens the insulators in some experimental devices and destroys them in others? Twist-angle disorder is expected to be at least partly responsible for this phenomenon [23][24][25][26]. Another possible culprit is the presence of strain in the graphene sheets.…”
mentioning
confidence: 99%
“…For instance, to determine the local spectral density at a domain wall [71,72] where the coupling to the substrate changes sign, we use the following expression For computing transport properties in junctions we start from the general expression for the current between two leads using Keldysh Green functions in [69,73] After some algebra we get the Landauer formula…”
Section: ĝJjmentioning
confidence: 99%