Molecular fraction limits in damped Lyman-alpha absorption systems

Abstract

We have used the Green Bank Telescope (GBT) and Berkeley-Illinois-Maryland Association (BIMA) array to search for redshifted millimetre absorption in a sample of damped Lyman-alpha absorption systems (DLAs). This brings the number of published systems searched from 18 to 30. In 17 cases we reach 3σ limits of τ≤0.1, which is a significant improvement over the previous searches and more than sufficient to detect the 4 known redshifted millimetre absorbers (τ1). While the CO rotational (millimetre) column density limits obtained are weaker than the electronic (optical) limits, they may provide useful limits below the atmospheric cut-off for the Lyman and Werner -bands in the UV (z abs1.8). Using a model for the DLA metallicity evolution combined with assumed HCO+/ ~and CO/ \~conversion ratios, we use the molecular column density limits to calculate plausible ~molecular fraction limits. Finally, we use these results to discuss the feasibility of detecting rotational CO transitions in DLAs with the next generation of large radio telescopes.

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