Lumabi: a Python package to streamline the computation of phonon-resolved luminescence spectra of defects and dopants in solids

Python Jupyter Notebook Submitted 17 July 2025Published 02 May 2026
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Authors

Julien Bouquiaux (0000-0003-1982-052X), Matteo Giantomassi (0000-0002-7007-9813), Samuel Poncé (0000-0003-1159-8389), Yongchao Jia (0000-0002-7319-9546), Masayoshi Mikami (0000-0002-5598-4882), Xavier Gonze (0000-0002-8377-6829)

Citation

Bouquiaux et al., (2026). Lumabi: a Python package to streamline the computation of phonon-resolved luminescence spectra of defects and dopants in solids. Journal of Open Source Software, 11(121), 9145, https://doi.org/10.21105/joss.09145

@article{Bouquiaux2026, doi = {10.21105/joss.09145}, url = {https://doi.org/10.21105/joss.09145}, year = {2026}, publisher = {The Open Journal}, volume = {11}, number = {121}, pages = {9145}, author = {Bouquiaux, Julien and Giantomassi, Matteo and Poncé, Samuel and Jia, Yongchao and Mikami, Masayoshi and Gonze, Xavier}, title = {Lumabi: a Python package to streamline the computation of phonon-resolved luminescence spectra of defects and dopants in solids}, journal = {Journal of Open Source Software} }
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materials science defect physics luminescence density functional theory vibronic peaks

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Journal of Open Source Software is part of Open Journals, which is a NumFOCUS-sponsored project.

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