Optimal choice of closest approach distance for a comet flyby: Supplementary material - software

This software pack, together with the figures it produces, presents supplementary material in support of the publication: J. De Keyser, N. J. T. Edberg, P. Henri, H. Rothkaehl, V. Della Corte, M. Rubin, R. Funase, S. Kasahara, C. Snodgrass. Optimal choice of closest approach distance for a comet flyby: Application to the Comet Interceptor mission. Planetary and Space Science, 2024.

This entry contains the MATLAB software, as well as the figures obtained with the software and used in the above-mentioned publication.

Data and Resources

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Cite this as (APA format)

De Keyser, J. (2024). Optimal choice of closest approach distance for a comet flyby: Supplementary material - software (Version 1) [Computer software]. Royal Belgian Institute for Space Aeronomy. https://doi.org/10.18758/NN9G6VNO
Retrieved: 13:53 07 Nov 2024 (UTC)
Users of this DOI are kindly encouraged to contact the author(s) for help and cooperation towards further successful utilisation.

Author(s)

Principal

De Keyser, Johanorcid, Royal Belgian Institute for Space Aeronomy

Other(s)

/

Contact data-contact of Royal Belgian Institute for Space Aeronomy

Technical info

Is referenced by

Soon in https://www.sciencedirect.com/journal/planetary-and-space-science

Temporal features

Additional info

Funding details

Work by JDK has been supported by the Belgian Science Policy Office through ESA PRODEX PEA 4000139830.

Conforms to

MATLAB R2022a

Repository homepage

https://data.aeronomie.be/dataset/

Last Updated

July 11, 2024

Created

July 11, 2024

Spatial features

No spatial information