AGNI: A radiative-convective model for lava planet atmospheres

Julia Jupyter Notebook Submitted 20 September 2024Published 30 May 2025
Software repository Paper review Download paper Software archive
Review

Editor: @arfon (all papers)
Reviewers: @MartianColonist (all reviews), @arjunsavel (all reviews)

Authors

Harrison Nicholls (0000-0002-8368-4641), Raymond Pierrehumbert (0000-0002-5887-1197), Tim Lichtenberg (0000-0002-3286-7683)

Citation

Nicholls et al., (2025). AGNI: A radiative-convective model for lava planet atmospheres. Journal of Open Source Software, 10(109), 7726, https://doi.org/10.21105/joss.07726

@article{Nicholls2025, doi = {10.21105/joss.07726}, url = {https://doi.org/10.21105/joss.07726}, year = {2025}, publisher = {The Open Journal}, volume = {10}, number = {109}, pages = {7726}, author = {Harrison Nicholls and Raymond Pierrehumbert and Tim Lichtenberg}, title = {AGNI: A radiative-convective model for lava planet atmospheres}, journal = {Journal of Open Source Software} }
Copy citation string · Copy BibTeX  
Tags

astronomy physics radiative transfer exoplanets convection radiation planets atmospheres

Altmetrics
Markdown badge

 

License

Authors of JOSS papers retain copyright.

This work is licensed under a Creative Commons Attribution 4.0 International License.

Creative Commons License

Journal of Open Source Software is an affiliate of the Open Source Initiative.

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

Table of Contents
Public user content licensed CC BY 4.0 unless otherwise specified.
ISSN 2475-9066