American Astronomical Society
 Quick Search:Help  
The Astronomical Journal
Athens/Institutional login
IOP login: Password:   
Create account | Alerts | Contact us
IOP Publishing | AAS Homepage | This Journal | Search | Authors | Referees | Librarians | User Options | Help |
< Previous article | Next article * | This volume ^^ | This issue ^ | Content finder *

THE BEHAVIOR OF NOVAE LIGHT CURVES BEFORE ERUPTION

Andrew C. Collazzi et al 2009 The Astronomical Journal 138 1846-1873   doi: 10.1088/0004-6256/138/6/1846  Help

   PDF (1.37 MB) | HTML | References

Andrew C. Collazzi1, Bradley E. Schaefer1, Limin Xiao1, Ashley Pagnotta1, Peter Kroll2, Klaus Löchel2 and Arne A. Henden3
1 Physics and Astronomy, Louisiana State University, Baton Rouge, LA 70803, USA
2 Sonneberg Observatory, D 96515 Sonneberg, Germany
3 American Association of Variable Star Observers, Cambridge, MA 02138, USA

ABSTRACT. In 1975, E. R. Robinson conducted the hallmark study of the behavior of classical nova light curves before eruption, and this work has now become part of the standard knowledge of novae. He made three points: 5 out of 11 novae showed pre-eruption rises in the years before eruption, one nova (V446 Her) showed drastic changes in the variability across eruptions, and all but one of the novae (excepting BT Mon) have the same quiescent magnitudes before and after the outburst. This work has not been tested since it came out. We have now tested these results by going back to the original archival photographic plates and measuring large numbers of pre-eruption magnitudes for many novae using comparison stars on a modern magnitude scale. We find in particular that four out of five claimed pre-eruption rises are due to simple mistakes in the old literature, that V446 Her has the same amplitude of variations across its 1960 eruption, and that BT Mon has essentially unchanged brightness across its 1939 eruption. Out of 22 nova eruptions, we find two confirmed cases of significant pre-eruption rises (for V533 Her and V1500 Cyg), while T CrB has a deep pre-eruption dip. These events are a challenge to theorists. We find no significant cases of changes in variability across 27 nova eruptions beyond what is expected due to the usual fluctuations seen in novae away from eruptions. For 30 classical novae plus 19 eruptions from 6 recurrent novae, we find that the average change in magnitude from before the eruption to long after the eruption is 0.0 mag. However, we do find five novae (V723 Cas, V1500 Cyg, V1974 Cyg, V4633 Sgr, and RW UMi) that have significantly large changes, in that the post-eruption quiescent brightness level is over ten times brighter than the pre-eruption level. These large post-eruption brightenings are another challenge to theorists.

Key words: novae, cataclysmic variables

Print publication: Issue 6 (2009 December)
Received 2009 July 30, accepted for publication 2009 September 23
Published 2009 November 5

Bookmark and Share Post to CiteUlike | Post to Connotea | Post to Bibsonomy

 

Find related articles





Article options

Authors & Referees

 
< Previous article | Next article * | This volume ^^ | This issue ^
Content finder
  Full Search
  Help


  
IOP Publishing | AAS Homepage | This Journal | Search | Authors | Referees | Librarians | User Options | Help | Recommend this journal
Setup information is available for Adobe Acrobat.
EndNote, ProCite ® and Reference Manager ® are registered trademarks of ISI Researchsoft.
Copyright © Institute of Physics and IOP Publishing Limited 2009 - electronic design and all rights in the EJs software.
© The American Astronomical Society ("AAS") - the names of any journals published by AAS and the content of all such journals.
Use of this service is subject to compliance with the terms and conditions of use. In particular, reselling and systematic downloading of files is prohibited.
Help: Cookies | Data Protection.