Origin of the counterrotating gas in NGC 1596

Aérée Chung, Bärbel Koribalski, Martin Bureau, J. H. Van Gorkom

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Abstract

We present Australia Telescope Compact Array Hi imaging of the edge-on galaxy NGC 1596, which was recently found to have counterrotating ionized gas in its centre (<15 arcsec). We find a large HI envelope associated with a nearby companion, the dwarf irregular galaxy NGC 1602. The Hi covers a region ≈ 11.9 × 13.4 arcmin 2 (62 × 70 kpc 2) and the total HI mass detected is 2.5 ± 0.1 × 10 9 M (assuming an 18-Mpc distance). The HI is centred on NGC 1602 but appears to have two tidal tails, one of which crosses over NGC 1596. The HI located at the position of NGC 1596 has a velocity gradient in the same sense as the ionized gas, that is, opposite to the stellar rotation. Both the existence of a large gas reservoir and the velocity gradient of the Hi and the ionized gas strongly suggest that the ionized gas in NGC 1596 originated from NGC 1602. From the length of the Hi tails, we conclude that the interaction started at least 1 Gyr ago, but the unsettled, asymmetric distribution of the ionized gas suggests that the accretion occurred more recently. NGC 1596 thus provides a good example where the presence of counterrotating gas can be directly linked to an accretion event. After the accretion has stopped or the merging is complete, NGC 1596 may evolve to a system with more extended counterrotating gas but no obvious signature of interaction. There is a substantial local Hi peak in one of the two tails, where we also find a faint stellar counterpart. The M HI/L B ratio in this region is too high for a normal dwarf elliptical or a low surface brightness galaxy, so we conclude that a tidal dwarf is currently forming there.

Original languageEnglish
Pages (from-to)1565-1572
Number of pages8
JournalMonthly Notices of the Royal Astronomical Society
Volume370
Issue number3
DOIs
Publication statusPublished - 2006 Aug 1

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All Science Journal Classification (ASJC) codes

  • Astronomy and Astrophysics
  • Space and Planetary Science

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