2018
DOI: 10.1088/2399-6528/aaef4f
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Quantum dragon solutions for electron transport through nanostructures based on rectangular graphs

Abstract: Electron transport through nanodevices of atoms in a single-layer rectangular arrangement with free (open) boundary conditions parallel to the direction of the current flow is studied within the singleband tight binding model. The Landauer formula gives the electrical conductance to be a function of the electron transmission probability, ( ) E , as a function of the energy E of the incoming electron. A quantum dragon nanodevice is one which has a perfectly conducting channel, namely  = ( ) E 1 for all energi… Show more

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Cited by 5 publications
(6 citation statements)
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References 56 publications
(177 reference statements)
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“…For most nanodevice with more than one type of atom on a graph the analysis of this paper needs to be generalized to leads which have more than one atom in the lead unit cell. This generalization has already been accomplished for quantum dragon nanodevices that had randomness correlated across the device [22,23]. Therefore, there should be no problems with generalizing to quantum dragons with only locally correlated randomness.…”
Section: Non-carbon-based Nanodevicesmentioning
confidence: 96%
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“…For most nanodevice with more than one type of atom on a graph the analysis of this paper needs to be generalized to leads which have more than one atom in the lead unit cell. This generalization has already been accomplished for quantum dragon nanodevices that had randomness correlated across the device [22,23]. Therefore, there should be no problems with generalizing to quantum dragons with only locally correlated randomness.…”
Section: Non-carbon-based Nanodevicesmentioning
confidence: 96%
“…Alternatively, the electron transmission can be calculated using a related ansatz method [22,23,32,33] for matrices of size (N + 1) × (N + 1). These two methods have been shown to be equivalent mathematically [23], as expected from physical considerations. The calculations in this paper used the NEGF method.…”
Section: Negf and Order Amidst Disordermentioning
confidence: 99%
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“…We previously studied the case of free boundary conditions (k 1 = k 2 = 0) and demonstrated quantum dragon nanoribbons [16] for both uniform and dimerized leads, but did not analyze order amidst disorder in the LDOS and did not calculate the bond currents.…”
Section: Model Andmentioning
confidence: 99%