Star-Forming Galaxies in a Nearby Group: Abell 634. 1 Instituto de Astrofísica de Andalucía-CSIC...
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Transcript of Star-Forming Galaxies in a Nearby Group: Abell 634. 1 Instituto de Astrofísica de Andalucía-CSIC...
Star-Forming Galaxies in a Nearby Group: Abell 634.
1Instituto de Astrofísica de Andalucía-CSIC
Reverte-Payá1, D.; Vílchez1, J. M. & Iglesias-Páramo2, J.
2Laboratoire d’Astrophysique de Marseille
Motivations• Environmental effects on Star Formation in Galaxies:
The study of the population of emission line galaxies in nearby clusters is a necessary step towards our understanding of the evolution of galaxies in dense environments and earlier epochs.
- We report here on the study of star-forming galaxies detected in a nearby northern cluster specially interesting.
We aim to build up a firm local basis to compare with observations of clusters of galaxies in a wide range of properties (density,..):
- We have selected one of the known nearby cluster.
1.- Inhibition of “standard” SF activity in disksin very high density environments:
-Ram pressure stripping, gas removal, Harassment, [especially in clusters]. All of these effects may take place in a galaxy cluster in a high probability.
2.- Enhancement in central parts or in tidal tipsStarburst .
-Galaxy Mergers, Close Encounters, Harassment. Cited article is a clear example of enhancement in tidal tail and central part because of Intracluster gas pressure.
A two-fold effect acting on gas rich disk galaxies :
The ObjectBig Group or Poor cluster?• low X-ray luminosity;• Dispersion of velocities similar to Abell 779 but noticeable lower than any other; and• 30 objects knowns.
(1) Data taken from NASA Extragalactic Database.(2) Data taken from White, Jones & Forman (1997). (3) Data taken from Abell, Corwin & Olowin (1989).
DetectionOne degree square have been imaged for the cluster with a depth of one hour exposure. That grant us we will be able to reach a low limit in bright as 21 H magnitud.
We have maken extensive use of IRAF tasks in order to reduce the images and SExtrator to detect.
Example image of 6’x10’ with SExtractor detections contour.
Preliminary Analysis
Work in progress
• Fine Structure of the H flux in each emitting galaxy.
• Statistical analysis of point sources. Decontamination. Probably needed auxiliar spectra.
• Morphological classification.
• H Luminosity Function (Parameters of Schechter fit).
• Spatial distribution of H emission galaxies across the cluster.
Name Right Asc.(1) Declinat.(1) Vel(1) Redshift(1) v (km/s) Lx(bol)(2) BM type(1)
Abell 634 8h 14m 33.7s +58o 02' 52" 7945 0.0265 391 0.006: III
Abell(3) Radius
66
X ray contour from ROSAT overplotted on DSS (40’x 40’) image of Abell 634.
It can be seen that there is not a central source of emission, indeed the distribution doesn’t show a clear pattern. The fact is: it looks like normal noise emission from background.
Emission-line sources can be separated in extended and unresolved emitters. For the second group, using the file provided by SExtractor, a small pipeline is needed (because of the size of FOV) to find all possible members which have an H excess.
In extended sources group, we have found just one case of interlopers emission. Note that just viewing it cannot be possible distinguish of the others.
A statistical analysis of unresolved sources is in progress to decontaminate from background objects. Some red and blue are spurious.
Name RA Dec Vel. Redshift
h m s º ‘ “ Km/s
SBS0807+580B
08 12 08.74 +57 54 28.82 7795 0.02601
SBS0808+581B
08 12 34.75 +57 57 36.79 X X
SBS0808+581A
08 12 16.80 +57 58 30.65 X X
SBS0807+581
08 11 53.52 +57 57 07.47 8364 0.02790
SBS0810+581
08 14 38.79 +58 01 23.79 7885 0.02630
SBS0809+582
08 13 47.06 +58 04 49.35 8232 0.02746
CGCG 287-053
08 13 17.89 +58 00 38.57 7821 0.02609
Atlas and Table of Objects
We don’t ignore that pixel size in ROSAT image is higher than some galaxies but we think it’s a good guide to see we talk about.
Observation
Wide Field Camera attached to 2.5 m Isaac Newton Telescope has been the instrument used to these observations.
Four Pointings with a small overlapping with a central frame which assembles the others, provide 1 degree square observed field.
Left hand figure.
Each frame represented in the figure is 6’x7’ (h’xw’). On the left column H emission is shown. Center: narrow continuum. Right column is calculated as the difference between previous.
If background color for all frames aren’t the same is because to adjust contrast in brightest galaxies must expand color bar-scale.
Next step absolute calibration.