Extremely red stellar objects revealed by IPHAS
Abstract
We present photometric analysis and follow-up spectroscopy for a population of extremely red stellar objects extracted from the point-source catalogue of the INT Photometric H-Alpha Survey (IPHAS) of the northern galactic plane. The vast majority of these objects have no previous identification. Analysis of optical, near- and mid-infrared photometry reveals that they are mostly highly-reddened asymptotic giant branch stars, with significant levels of circumstellar material. We show that the distribution of these objects traces galactic extinction, their highly reddened colours being a product of both interstellar and circumstellar reddening. This is the first time that such a large sample of evolved low-mass stars has been detected in the visual and allows optical counterparts to be associated with sources from recent infrared surveys. Follow-up spectroscopy on some of the most interesting objects in the sample has found significant numbers of S-type stars which can be clearly separated from oxygen-rich objects in the IPHAS colour-colour diagram. We show that this is due to the positions of different molecular bands relative to the narrow-band H-alpha filter used for IPHAS observations. The IPHAS (r' - H-alpha) colour offers a valuable diagnostic for identifying S-type stars. A selection method for identifying S-type stars in the galactic plane is briefly discussed and we estimate that over a thousand new objects of this type may be discovered, potentially doubling the number of known objects in this short but important evolutionary phase.
Cite
@article{arxiv.0808.2441,
title = {Extremely red stellar objects revealed by IPHAS},
author = {N. J. Wright and R. Greimel and M. J. Barlow and J. E. Drew and M. -R. L. Cioni and A. A. Zijlstra and R. L. M. Corradi and E. A. González-Solares and P. Groot and J. Irwin and M. J. Irwin and A. Mampaso and R. A. H. Morris and D. Steeghs and Y. C. Unruh and N. Walton},
journal= {arXiv preprint arXiv:0808.2441},
year = {2008}
}
Comments
18 pages, 20 figures, published in MNRAS. Minor text changes and Figure 17 replaced