Hostname: page-component-586b7cd67f-rcrh6 Total loading time: 0 Render date: 2024-11-30T00:58:46.661Z Has data issue: false hasContentIssue false

Changes in the Unchangeable: Simulation of Transient Astronomical Phenomena with Stellarium

Published online by Cambridge University Press:  03 March 2020

Georg Zotti
Affiliation:
Ludwig Boltzmann Institute for Archaeological Prospection and Virtual Archaeology, Hohe Warte 38, A-1190 Vienna, Austria email: [email protected]
Alexander Wolf
Affiliation:
Altai State Pedagogical University, Barnaul, Russia email: [email protected]
Rights & Permissions [Opens in a new window]

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

The open-source desktop planetarium Stellarium has become very popular in astronomical education and outreach. Our recent changes aim for its applicability in historical and archaeoastronomical simulation contexts. Apart from visualizing the seemingly perpetual regular motions of the celestial bodies, it can be used to visualize and demonstrate historical solar and lunar eclipses, historical and present comets, meteors, and also novae and supernovae.

Type
Contributed Papers
Copyright
© International Astronomical Union 2020

References

De Lorenzis, A. & Orofino, V. (2018), Astron. and Comput. 25, 118132 CrossRefGoogle Scholar
Espenak, F. & Meeus, J. (2006), Five Mill. Can. of Sol. Eclipses: -1900 to +3000, NASA Google Scholar
Folkner, W. M., Williams, J. G., Boggs, D. H., Park, R. S. & Kuchynka, P. (2014), The Planetary and Lunar Ephemerides DE430 and DE431, IPN Progress Report 42-196, JPL/NASAGoogle Scholar
Green, D. A. & Stephenson, F. R. (2003), Historical Supernovae, in Vol. 598 of Lecture Notes in Physics, Springer, Berlin, pp. 719 Google Scholar
Mucke, H. & Meeus, J. (1983), Canon of Solar Eclipses -2003 to +2526/Canon der Sonnenfinsternisse -2003 bis +2526, 2nd edn, Astron. Büro, Wien Google Scholar
Polcaro, F. & Martocchia, A. (2005), ‘Supernovae astrophysics from Middle Age documents’, ArXiv Astrophysics e-prints Google Scholar
Project Pluto (n.d.), online at https://www.projectpluto.com/update7b.htm#comet_tail_formula (Accessed Oct. 29, 2018)Google Scholar
Stellarium website (n.d.), online at https://stellarium.org (Accessed 2018-10-25)Google Scholar
Strope, R. J., Schaefer, B. E. & Henden, A. A. (2010), Astron. J. 140, 3462 CrossRefGoogle Scholar
Tsvetkov, D. Y. & Bartunov, O. S. (1993), ‘Sternberg Astron. Inst. supernova catalogue’, Bull. d’Inf. du CDS 42, 17 Google Scholar
Utrobin, V. P. (1986), Sverhnovye zvezdy, in Syunayev, R. A., ed., ‘Fizika Cosmosa’, Sovetskaya Encyclopediya, Moskva, pp. 600607 Google Scholar
Vondrák, J., Capitaine, N. & Wallace, P. (2011), Astron. Astrophys. 534(A22), 119 CrossRefGoogle Scholar
Zotti, G. (2001), A Multi-Purpose Virtual Reality Model of the Solar System (VRMoSS), Master’s thesis, TU Wien Google Scholar
Zotti, G. (2016), Mediterranean Archaeology and Archaeometry 16(4), 1724 Google Scholar
Zotti, G. & Wolf, A. (2018), Stellarium 0.18.2 User Guide Google Scholar