Abstract
The Empirical Tight Binding (ETB) method is widely used in atomistic device simulations. The reliability of such simulations depends very strongly on the choice of basis sets and the ETB parameters. The traditional way of obtaining the ETB parameters is by fitting to experiment data, or critical theoretical bandedges and symmetries rather than a foundational mapping. A further shortcoming of traditional ETB is the lack of an explicit basis. In this work, a DFT mapping process which constructs TB parameters and explicit basis from DFT calculations is developed. The method is applied to two materials: GaAs and MgO. Compared with the existing TB parameters, the GaAs parameters by DFT mapping show better agreement with the DFT results in bulk band structure calculations and lead to different indirect valleys when applied to nanowire calculations. The MgO TB parameters and TB basis functions are also obtained through the DFT mapping process.
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Acknowledgements
nanoHUB.org computational resources operated by the Network for Computational Nanotechnology funded by NSF are utilized in this work. The research was funded by the Lockheed Martin Corporation and NSF (Award No. 1125017)
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Tan, Y., Povolotskyi, M., Kubis, T. et al. Empirical tight binding parameters for GaAs and MgO with explicit basis through DFT mapping. J Comput Electron 12, 56–60 (2013). https://doi.org/10.1007/s10825-013-0436-0
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DOI: https://doi.org/10.1007/s10825-013-0436-0