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Astron. Astrophys. 330, 443-446 (1998)
No C+ emission from the z = 3.137 damped Lyman-
absorber towards PC 1643 ![[FORMULA]](img4.gif)
4631A
R.J. Ivison ,
A.P. Harrison 1, 2 and
I.M. Coulson 3
1 Institute for Astronomy, University Of Edinburgh,
Blackford Hill, Edinburgh EH9 3HJ, UK
2 MRAO, Cavendish Laboratory, Madingley Road, Cambridge CB3
0HE, UK
3 Joint Astronomy Centre, 660 North
A'ohoku Place, University Park, Hilo, HI 96720, USA
Received 21 July 1997 / Accepted 24 September 1997
Abstract
We describe a search for redshifted [C II ] in a
![[FORMULA]](img5.gif)
damped Ly ![[FORMULA]](img3.gif)
absorption
system that has a large neutral hydrogen column density and which was
controversially reported to be a source of CO emission, indicative of
rapid star formation (Frayer, Brown & Vanden Bout 1994; Braine,
Downes & Guilloteau 1996). There is no sign of
[C II ] emission in our spectrum, which was obtained
during excellent observing conditions at the James Clerk Maxwell
Telescope (JCMT) and covers 1890 km s-1. The upper limit we
have placed on the integrated line intensity (![[FORMULA]](img6.gif)
K km s-1 for a profile akin to that of the CO lines)
constrains the [C II ]/CO(1-0) line-intensity ratio to
![[FORMULA]](img7.gif)
, based on the line intensity reported by Frayer
et al. (1994), or to ![[FORMULA]](img8.gif)
based on the data obtained
by Braine et al. (1996). These limits are consistent with values
measured in the Galactic plane and for nearby starburst nuclei; the
former, however, is significantly lower than the ratio found in
low-metallicity systems such as the Large Magellanic Cloud (which
might be expected to have much in common with a damped Ly
absorption system at high redshift). This can be
taken as evidence against the reality of the CO line detections, with
the proviso that a system significantly larger than present-day disk
galaxies would not have been fully covered by our small beam
whereas it would have been properly sampled by the Frayer et
al. observations. Finally, we demonstate (as did Ivison et al. 1996)
that knitting together overlapping bands can generate erroneous
results - specifically, an emission feature that has a width, profile
and central velocity consistent with the controversial CO emission
lines and which could have drawn us to entirely the wrong
conclusions.
Key words: galaxies: quasars: absorption lines; individual:
PC 1643+4631A 
galaxies: formation;
ISM
infrared:
galaxies
radio lines: galaxies
Contents
- 1. Introduction
- 2. Observations and data reduction
- 3. Results
- 4. Discussion
- 5. Concluding remarks
- Acknowledgements
- References
© European Southern Observatory (ESO) 1998
Online publication: January 16, 1998
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