C. Tappert, L. Schmidtobreick, A. Ederoclite, N. Vogt
Published 2012-11-07Version 1
The eruption of a (classical) nova is widely accepted to be a recurrent event in the lifetime of a cataclysmic binary star. In-between eruptions the system should therefore behave as a "normal" cataclysmic variable (CV), i.e. according to its characteristic properties like the mass-transfer rate or the strength of the magnetic field of the white dwarf. How important are these characteristics for the nova eruption itself, i.e. which type of systems preferably undergo a nova eruption? This question could in principle be addressed by comparing the post-nova systems with the general CV population. However, information on post-novae is scarce, even to the extent that the identification of the post-nova is ambiguous in most cases. In this paper we inform on the progress of a project that has been undertaken to significantly improve the number of confirmed post-novae, thus ultimately providing the means for a better understanding of these objects.
Comments: 6 pages, 2 figures; proceedings of a poster presented at the international conference on "The Most Mysterious Binaries: Significance for Astrophysics", 2 - 6 July 2012, Hvar, Croatia; to be published in the Central European Astrophysical Bulletin
Chemical spots in the absence of magnetic field in the binary HgMn star 66 Eridani
Discovery of a magnetic field in the B pulsating system HD 1976
Lowering the Characteristic Mass of Cluster Stars by Magnetic Fields and Outflow Feedback
![QR code for arXiv:1211.1563 [astro-ph.SR]](http://oss.arxitics.com/images/favicon.svg)