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Paper detail

Wave-packet scattering at a normal-superconductor interface in two-dimensional materials: a generalized theoretical approach

A wave-packet time evolution method, based on the split-operator technique, is developed to investigate the scattering of quasi-particles at a normal-superconductor interface of arbitrary profile and shape. As a practical application, we consider a system where low energy electrons can be described as Dirac particles, which is the case for most two-dimensional materials, such as graphene and transition metal dichalcogenides. However the method is easily adapted for other cases such as electrons in few layer black phosphorus, or any Schrödinger quasi-particles within the effective mass approximation in semiconductors. We employ the method to revisit Andreev reflection in graphene, where specular and retro reflection cases are observed for electrons scattered by a step-like superconducting region. The effect of opening a zero-gap channel across the superconducting region on the electron and hole scattering is also addressed, as an example of the versatility of the technique proposed here.

preprint2020arXivOpen access
F. J. A. LinardV. N. MouraL. CovaciM. V. MiloševićA. Chaves
cond-mat.mes-hall
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F. J. A. LinardV. N. MouraL. CovaciM. V. MiloševićA. Chaves

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