J. S. Heiner scite author profile

We have found the peculiar galaxy NGC 922 to be a new drop‐through ring galaxy using multiwavelength (ultraviolet–radio) imaging and spectroscopic observations. Its ‘C’‐shaped morphology and tidal plume indicate a recent strong interaction with its companion which was identified with these observations. Using numerical simulations we demonstrate that the main properties of the system can be generated by a high‐speed off‐axis drop‐through collision of a small galaxy with a larger disc system, thus making NGC 922 one of the nearest known collisional ring galaxies. While these systems are rare in the local Universe, recent deep Hubble Space Telescope images suggest they were more common in the early Universe.

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The Volume Densities of Giant Molecular Clouds in M81

Heiner

Allen

Emonts

et al. 2008

ApJ

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Using observed GALEX far-ultraviolet (FUV) fluxes and VLA images of the 21-cm HI column densities, along with estimates of the local dust abundances, we measure the volume densities of a sample of actively star-forming giant molecular clouds (GMCs) in the nearby spiral galaxy M83 on a typical resolution scale of 170 pc. Our approach is based on an equilibrium model for the cycle of molecular hydrogen formation on dust grains and photodissociation under the influence of the FUV radiation on the cloud surfaces of GMCs. We find a range of total volume densities on the surface of GMCs in M83, namely 0.1 -400 cm −3 inside R 25 , 0.5 -50 cm −3 outside R 25 . Our data include a number of GMCs in the HI ring surrounding this galaxy. Finally, we discuss the effects of observational selection, which may bias our results.

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Quantified H I morphology - VI. The morphology of extended discs in UV and H I

Holwerda

Pirzkal

Heiner

2012

Monthly Notices of the Royal Astronomical Society

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Extended ultraviolet (XUV) discs have been found in a substantial fraction of late-type -S0, spiral and irregular -galaxies. Similarly, most late-type spirals have an extended gas disc, observable in the 21-cm radio line (H I). The morphology of galaxies can be quantified well using a series of scale-invariant parameters; concentration-asymmetry-smoothness (CAS), Gini, M 20 , and G M parameters. In this series of papers, we apply these to H I column density maps to identify mergers and interactions, lopsidedness and now XUV discs.In this paper, we compare the quantified morphology and effective radius (R 50 ) of the Westerbork observations of neutral Hydrogen in Irregular and SPiral galaxies Project (WHISP) H I maps to those of far-and near-ultraviolet images obtained with GALEX, to explore how close the morphology and scales of H I and UV in these discs correlate. We find that XUV discs do not stand out by their effective radii in UV or H I. However, the concentration index in far-ultraviolet (FUV) appears to select some XUV discs. And known XUV discs can be identified via a criterion using asymmetry and M 20 ; 80 per cent of XUV discs are included but with 55 per cent contamination. This translates into 61 candidate XUV disc out of our 266 galaxies, 23 per cent consistent with previous findings. Otherwise, the UV and H I morphology parameters do not appear closely related.Our motivation is to identify XUV discs and their origin. We consider three scenarios; tidal features from major mergers, the typical extended H I disc is a photo-dissociation product of the XUV regions and both H I and UV features originate in cold flows fueling the main galaxy.We define extended H I and UV discs based on their concentration (C HI > 5 and C FUV > 4 respectively), but that these two subsamples never overlap in the WHISP sample. This appears to discount a simple photo-dissociation origin of the outer H I disc.Previously, we identified the morphology space occupied by ongoing major mergers. Known XUV discs rarely reside in the merger-dominated part of H I morphology space but those that do are type 1. The exceptions, XUV discs in ongoing mergers, include the previously identified UGC 4862 and UGC 7081, 7651, and 7853. This suggests cold flows as the origin for the XUV complexes and their surrounding H I structures.

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J. S. Heiner

NGC 922 - a new drop-through ring galaxy★

The Volume Densities of Giant Molecular Clouds in M81

Quantified H I morphology - VI. The morphology of extended discs in UV and H I

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