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A Possible Nova from the IRAS Point Source Catalogue

Published online by Cambridge University Press:  12 April 2016

P. Garcia-Lario
Affiliation:
Instituto de Astrofisica de Canarias, E-38200, La Laguna, Tenerife, Spain
A. Manchado
Affiliation:
Instituto de Astrofisica de Canarias, E-38200, La Laguna, Tenerife, Spain
K.C. Sahu
Affiliation:
Kapteyn Laboratorium, NL-9700 AV Groningen, The Netherlands
S.R. Pottasch
Affiliation:
Kapteyn Laboratorium, NL-9700 AV Groningen, The Netherlands

Abstract

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During a spectroscopic survey of IRAS sources with infrared colours similar to those in planetary nebulae, IRAS 06518-1041 revealed itself as a possible nova-like object. The spectrum of IRAS 06518 – 1041, which is shown in Figure 1, presents strong and broad hydrogen Balmer lines together with broad permitted lines of He and C. This spectrum also shows a much weaker narrow nebular component, with forbidden lines of [OIII] and narrow Hα. The mean velocity associated to the observed line widths is about 800 km s−1. The observed emission lines correspond well to typical post-novae objects in the quiescent phase (Warner, 1989). Another argument which supports the idea of this object being a nova-like star is that there are some indications of the binarity of the source if we attend to the asymmetries observed both in the Hβ and Hα profiles. The high resolution spectrum at Hα shows the presence of a sharp double-peaked central emission from a low expanding envelope at a velocity of 35±5 km s−1, together with a much broader emission with velocities of several hundred kilometers. The displacement between both components is about 130 km s−1. This broad component could be due to the presence of an accretion disk around the system with hydrogen-rich material falling onto the compact companion. This is supported by the fact that the broad emission looks like the combination of different velocity components giving rise to a complex and asymmetric line profile. From this high resolution spectrum we derive a VLSR = 57 km s−1, which points to a distance of 5.5 kpc if we adopt the model rotation curve of the Galaxy given by Pottasch (1984) and a distance of 9 kpc from the Sun to the galactic center. The large infrared excess detected by the IRAS satellite is probably the result of the formation of dust grains in the outer parts of the common envelope at a temperature of about 160 K, as can be derived from the infrared data. This infrared excess is also present in other nova-like objects and is specially important in old and slow novae (Callus et al, 1987) where the continuous ejection of mass produces dust shells which are strong emitters in the infrared.

Type
1a. Basic Properties of Novae
Copyright
Copyright © Springer-Verlag 1990

References

Duerbeck, H.W.: 1987, Sp. Sc. Rev., 45, 1/2 Google Scholar
Pottasch, S.R.: 1984, Planetary Nebulae, ed. Reidel-Dordrecht Google Scholar
Warner, B.: 1989, in Classical Novae, eds. Bode, M.F. and Evans, A., p. 1 Google Scholar