Python package for eigenchannels, vibrations and inelastic electron transport based on SIESTA/TranSIESTA DFT
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Updated
Jul 29, 2024 - Python
Python package for eigenchannels, vibrations and inelastic electron transport based on SIESTA/TranSIESTA DFT
Monte Carlo simulator of phonon and heat transport in nanostructures
Python program for analyzing the output files of phonopy.
A Python package for numerical quantum mechanics of chain-like systems based on tensor trains
Efficiently compute off-resonance Raman spectra from first principles calculations (e.g. VASP) using polynomial models and ML/AI.
TISH solver in Julia by discretisation, combined with a deformation potential estimate of Electron-Phonon coupling
Python code to simulate phonon transport in nanodevices using the Monte Carlo method from ab-initio phonon data.
Automatic Differentiation of Interatomic Potentials with Phonons in Julia: ADIP².jl
Converts anisotropic displacement parameters to different parametrizations and can also handle Phonopy output.
Collection of codes for the discipline Solid State Electronics
Generalized 2D phonon transport using a Monte Carlo method
A selection of reports from my BSc Physics degree at the University of Bristol
Computational condensed matter research code written in C++. Primary applications relate to low-dimensional carbon nanomaterials, phonons, and structural optimization.
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