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Visualization of deformed graphene sheets producing pseudomagnetic fields

<p>These images are additional visualizations for the example calculations of the paper "Designing electronic properties of two-dimensional crystals through optimization of deformations", New J. Phys. 16(9):093044 (2014).</p> <p>They show how deformations, caused by adherence to a patterned substrate, can give rise to pseudomagnetic fields in the graphene sheet. In this case, the pattern of the substrate was chosen in order to produce a desired pseudomagnetic field.</p> <p>These images are designed to be viewed in parallel with the cited article (which is open access: see DOI link below).</p> <p> </p> <p>Filename convention:</p> <p>patternN_B10_zscaleM.png:</p> <p>Corresponds to figure 3 of the cited article, row N, with vertical dimension scaled by a factor of M.</p> <p>patternN_B100.png:</p> <p>Corresponds to figure 4 of the cited article, row N. Vertical dimension is unscaled.</p

Pseudomagnetic field in graphene due to a patterned substrate: B=10T, pattern 4

<p>Visualization of the deformation of a graphene sheet on a substrate, which gives rise to a desired pattern of pseudomagnetic field with strength 10T. Corresponds to row 4 of Figure 3 in the article "Designing electronic properties of two-dimensional crystals through optimization of deformations", New J. Phys. 16(9):093044 (2014) (see DOI link below, open access).</p> <p>Vertical dimension is scaled by a factor of 3.</p

Resonant Tunneling in Graphene Pseudomagnetic Quantum Dots

Realistic relaxed configurations of triaxially strained graphene quantum dots are obtained from unbiased atomistic mechanical simulations. The local electronic structure and quantum transport characteristics of y-junctions based on such dots are studied, revealing that the quasi-uniform pseudomagnetic field induced by strain restricts transport to Landau level- and edge state-assisted resonant tunneling. Valley degeneracy is broken in the presence of an external field, allowing the selective filtering of the valley and chirality of the states assisting in the resonant tunneling. Asymmetric strain conditions can be explored to select the exit channel of the y-junction