Bibcode
Rodríguez Zaurín, J.; Tadhunter, C. N.; González Delgado, R. M.
Bibliographical reference
Monthly Notices of the Royal Astronomical Society, Volume 400, Issue 3, pp. 1139-1180.
Advertised on:
12
2009
Citations
36
Refereed citations
34
Description
We present deep long-slit optical spectra for a sample of 36
ultraluminous infrared galaxies (ULIRGs), taken with the William
Herschel Telescope on La Palma with the aim of investigating the star
formation histories and testing evolutionary scenarios for such objects.
Here we present the sample, the analysis techniques and a general
overview of the properties of the stellar populations; a more detailed
discussion will be presented in a forthcoming paper. Spectral synthesis
modelling has been used in order to estimate the ages of the stellar
populations found in the diffuse light sampled by the spectra in both
the nuclear and extended regions of the target galaxies. We find that
adequate fits can be obtained using combinations of young stellar
populations (YSPs; tYSP <= 2Gyr), with ages divided into
two groups: very young stellar populations (VYSPs; tVYSP
<= 100Myr) and intermediate-young stellar populations (IYSPs; 0.1
< tIYSP <= 2Gyr). Our results show that YSPs are
present at all locations of the galaxies covered by our slit positions,
with the exception of the northern nuclear region of the ULIRG
IRAS23327+2913. Furthermore, VYSPs are present in at least 85 per cent
of the 133 extraction apertures used for this study, being more
significant in the nuclear regions of the galaxies. Old stellar
populations (OSPs; tOSP > 2Gyr) do not make a major
contribution to the optical light in the majority of the apertures
extracted. In fact they are essential for fitting the spectra in only 5
per cent (seven) of the extracted apertures. The estimated total masses
for the YSPs (VYSPs + IYSPs) are in the range 0.18 ×
1010 <= MYSP <= 50 ×
1010Msolar. We have also estimated the bolometric
luminosities associated with the stellar populations detected at optical
wavelengths, finding that they fall in the range 0.07 ×
1012 < Lbol < 2.2 ×
1012Lsolar. In addition, we find that reddening is
significant at all locations in the galaxies. This result emphasizes the
importance of accounting for reddening effects when modelling the
stellar populations of star-forming galaxies.