Physics – Condensed Matter – Mesoscale and Nanoscale Physics
Scientific paper
2010-10-13
Physics
Condensed Matter
Mesoscale and Nanoscale Physics
69 pages. Download KNIT at: http://inac.cea.fr/Pisp/xavier.waintal/KNIT.php
Scientific paper
This paper is the documentation for a numerical code for quantum transport called KNIT. The KNIT library implements a generalization of the well known recursive Green function technique for a large class of multi-terminal mesoscopic systems with arbitrary geometries, topology and dimension. The systems are described by tight-biding Hamiltonians (with arbitrary internal degree of freedom like spin, electron/hole grading, orbitals...) and the calculation done within the non equilibrium Green function formalism (equivalent to the Landauer-Buttiker Scattering approach). KNIT can (and has) been applied to many different physical systems including quantum Hall effect, topological insulators, graphene ribbons, hybrid superconducting systems and ferromagnetic multilayers. KNIT main functionality is written in C++ and wrapped into Python, providing a simple and flexible interface for the user. Usual "input files" of numerical codes are replaced by small python scripts where the user builds the system and then computes whatever observable (conductance, noise, local density of states...) is needed. KNIT code can be obtained freely at the following url: http://inac.cea.fr/Pisp/xavier.waintal/KNIT.php
Borlenghi Simone
Kazymyrenko Kyryl
Rychkov Valentin
Rychkova Irina
Waintal Xavier
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