1.2. How to cite

At the moment, just cite the following paper for pyoomph:

• Christian Diddens and Duarte Rocha, Bifurcation tracking on moving meshes and with consideration of azimuthal symmetry breaking instabilities, J. Comput. Phys. 518, 113306, (2024), doi:10.1016/j.jcp.2024.113306.

Please mention that pyoomph is based on oomph-lib and GiNaC, i.e. also cite at least:

• 13. Heil, A. L. Hazel, oomph-lib - An Object-oriented multi-physics finite-element library, Lect. Notes Comput. Sci. Eng. 53, 19-49, (2006), doi:10.1007/3-540-34596-5_2.

• 3. Bauer, A. Frink, R. Kreckel, Introduction to the GiNaC framework for symbolic computation within the C++ programming language, J. Symb. Comput. 33 (1), 1-12, (2002), doi:10.1006/jsco.2001.0494.

Citing of material properties and activity models

When using UNIFAC-like group contribution methods (cf. Section 8.8), you please cite the following:

• The published parameters of the original and modified (Dortmund) UNIFAC model were taken with kind permission from the DDBST website https://www.ddbst.com. Please cite the papers listed at https://www.ddbst.com/published-parameters-unifac.html for original UNIFAC and https://www.ddbst.com/PublishedParametersUNIFACDO.html for modified (Dortmund) UNIFAC.

• Also note that the UNIFAC Consortium provides updated and revised parameters, which will increase the accuracy of the predicted activity coefficients. Please refer to the https://unifac.ddbst.com/unifac_.html for more information. These updated parameters are not included in pyoomph.

• When using the AIOMFAC model, please cite the papers listed here https://aiomfac.lab.mcgill.ca/citation.html.

• When using the material properties from pyoomph.materials.default_materials, please have a look at the comments in this file to cite the correct papers.