Bibcode
Cedrés, Bernabé; Iglesias-Páramo, Jorge; Vílchez, José Manuel; Reverte, Daniel; Petropoulou, Vasiliki; Hernández-Fernández, Jonathan
Referencia bibliográfica
The Astronomical Journal, Volume 138, Issue 3, pp. 873-888 (2009).
Fecha de publicación:
9
2009
Número de citas
9
Número de citas referidas
7
Descripción
This paper presents the first results of an Hα imaging survey of
galaxies in the central regions of the A2151 cluster. A total of 50
sources were detected in Hα, from which 41 were classified as
secure members of the cluster and 2 as likely members based on
spectroscopic and photometric redshift considerations. The remaining
seven galaxies were classified as background contaminants and thus
excluded from our study on the Hα properties of the cluster. The
morphologies of the 43 Hα selected galaxies range from grand
design spirals and interacting galaxies to blue compacts and tidal
dwarfs or isolated extragalactic H II regions, spanning a range of
magnitudes of -21 <= MB <= -12.5 mag. From these 43
galaxies, 7 have been classified as active galactic nucleus (AGN)
candidates. These AGN candidates follow the L(Hα) versus
MB relationship of the normal galaxies, implying that the
emission associated with the nuclear engine has a rather secondary
impact on the total Hα emission of these galaxies. A comparison
with the clusters Coma and A1367 and a sample of field galaxies has
shown the presence of cluster galaxies with L(Hα) lower than
expected for their MB , a consequence of the cluster
environment. This fact results in differences in the L(Hα) versus
EW(Hα) and L(Hα) distributions of the clusters with respect
to the field, and in cluster-to-cluster variations of these quantities,
which we propose are driven by a global cluster property as the total
mass. In addition, the cluster Hα emitting galaxies tend to avoid
the central regions of the clusters, again with different intensity
depending on the cluster total mass. For the particular case of A2151,
we find that most Hα emitting galaxies are located close to the
regions with the higher galaxy density, offset from the main X-ray peak.
Overall, we conclude that both the global cluster environment and the
cluster merging history play a non-negligible role in the integral star
formation properties of clusters of galaxies.