The calculation of the electron–phonon coupling from first principles is computationally very challenging and remains mostly out of reach for systems with a large number of atoms. Semi-empirical methods, like density functional tight binding (DFTB), provide a framework for obtaining quantitative results at moderate computational costs. Herein, we present a new method based on the DFTB approach for computing electron–phonon couplings and relaxation times. It interfaces with phonopy for vibrational modes and dftb+ to calculate transport properties. We derive the electron–phonon coupling within a non-orthogonal tight-binding framework and apply them to graphene as a test case.
CITATION STYLE
Croy, A., Unsal, E., Biele, R., & Pecchia, A. (2023). DFTBephy: A DFTB-based approach for electron–phonon coupling calculations. Journal of Computational Electronics, 22(5), 1231–1239. https://doi.org/10.1007/s10825-023-02033-9
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