A search for CO in the Local Group dwarf irregular galaxy WLM

Taylor, Christopher L.; Klein, U.

doi:10.1051/0004-6361:20000337

Cited by 12 publications

(22 citation statements)

References 19 publications

(30 reference statements)

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“…Like many dwarf irregulars, WLM has a low metallicity; its oxygen abundance is 12 þ log (O/H ) ¼ 7:78 8:23 (Skillman et al 1989;Hunter & Hoffman 1999), where 8.7 is solar. Given its metallicity, it is not surprising that Taylor & Klein (2001) did not detect any CO emission in this galaxy, since the CO-to-H 2 ratio is thought to decrease significantly for lowmetallicity galaxies. WLM also has a globular cluster with an age of 14:8 AE 0:6 Gyr on its western edge (Hodge et al 1999), which is very unusual for a faint dwarf irregular ( Billett et al 2002).…”

Section: Introductionmentioning

confidence: 94%

A High-Resolution Study of the HiContent of Local Group Dwarf Irregular Galaxy WLM

et al. 2007

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Dwarf irregular galaxies are unique laboratories for studying the interaction between stars and the interstellar medium in low-mass environments. We present the highest spatial resolution observations to date of the neutral hydrogen content of the Local Group dwarf irregular galaxy WLM. We find that WLM's neutral hydrogen distribution is typical for a galaxy of its type and size and derive an H i mass of (6:3 AE 0:3) ; 10 7 M . In addition, we derive an H i extent for WLM of $30 0 , which is much less than the 45 0 extent found by Huchtmeier and coworkers. We show that the broken ring of high column density neutral hydrogen surrounding the center of WLM is likely the result of star formation propagating out from the center of the galaxy. The young stars and H emission in this galaxy are mostly correlated with the high column density neutral hydrogen. The gap in the central ring is the result of star formation in that region using up, blowing out, or ionizing all of the neutral hydrogen. Like many late-type galaxies, WLM's velocity field is asymmetric with the approaching (northern) side appearing to be warped and a steeper velocity gradient for the approaching side than for the receding side in the inner region of the galaxy. We derive a dynamical mass for WLM of 2:16 ; 10 9 M .

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Section: Introductionmentioning

confidence: 94%

A High-Resolution Study of the HiContent of Local Group Dwarf Irregular Galaxy WLM

et al. 2007

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“…A possible explanation of this extinction is the presence of a large molecular gas complex in the southern half of WLM. The only search for any type of molecular gas was that of Taylor & Klein (2001). Their CO observations resulted in a non-detection, however they point out that in low metallicity systems like WLM there is evidence for a high CO to H 2 conversion factor (Taylor, Kobulnicky, & Skillman 1998).…”

Section: Comparison With Optical Datamentioning

confidence: 99%

“…Since its discovery (Wolf 1910;Melotte 1926), there have been numerous studies of its photometric properties, stellar populations, star formation history, and chemical abundances (van den Bergh 2000). Unfortunately, other than observations of H II regions (Hodge & Miller 1995), an unsuccessful search for CO (Taylor & Klein 2001), and studies of its most basic infrared (Melisse & Israel 1994) and radio (Huchtmeier, Seiradakis & Materne 1981;Huchtmeier & Richter 1986) properties, little has been done to study its interstellar medium.…”

Section: Introductionmentioning

confidence: 99%

HiObservations of the Local Group Dwarf WLM

et al. 2004

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We present Australia Telescope Compact Array mosaic H I imaging of the Local Group dwarf irregular galaxy WLM. We find an integrated flux of 149 Jy km s −1 and a total H I mass of (3.2±0.3)×10 7 M ⊙ . The major axis of the H I is aligned with the stellar component of the galaxy. The overall H I distribution is relatively smooth at our resolution and has a double peaked central core. One of these peaks is aligned with a region found to have extinction that is internal to WLM and we take this as possible evidence of a large molecular gas complex in the southern half of the galaxy. The other H I peak is in close proximity to the brightest H II regions. WLM's overall velocity field is consistent with rigid body rotation. A rotation curve is derived, and we find a total dynamical mass of (3.00±0.80)×10 8 M ⊙ . We also performed a wide field search, 38 ′ in radius, for H I companions or evidence of recent interactions (e.g., tidal tails), and found no detections to an H I mass limit of M HI > 8.4×10 5 M ⊙ .

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“…In order to gain decisive information on the metallicity dependence of X CO , observations at low metallicities is necessary. This has been a difficult task, however, because CO has failed to be detected in galaxies with metallicity lower than 12 + log[O/H] ∼ 8.0 (Taylor & Klein 2001;Leroy et al 2005). The lowest metallicity galaxy with detected CO is IZw 36, at 12 + log[O/H] ∼ 7.9 Young et al 1995 which is only tentative.…”

Section: Introductionmentioning

confidence: 99%

Deep CO Observations and the CO-to-H2 Conversion Factor in DDO 154, a Low Metallicity Dwarf Irregular Galaxy

Komugi

Yasui

Kobayashi

et al. 2011

Publications of the Astronomical Society of Japan

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We present a deep spectroscopic search for CO emission in the dwarf irregular galaxy DDO154, which has an Oxygen abundance of only 1/20 the solar value. The observations were conducted in order to constrain the CO-to-H 2 conversion factor at low metallicity. No CO was detected, however, despite being one of the sensitive observations done towards galaxies of this type. We succeed in putting a strong lower limit on the conversion factor, at least 10 times the Galactic value. Our result supports previous studies which argue for a high conversion factor at low metallicity.

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A search for CO in the Local Group dwarf irregular galaxy WLM

Cited by 12 publications

References 19 publications

A High-Resolution Study of the HiContent of Local Group Dwarf Irregular Galaxy WLM

A High-Resolution Study of the HiContent of Local Group Dwarf Irregular Galaxy WLM

HiObservations of the Local Group Dwarf WLM

Deep CO Observations and the CO-to-H2 Conversion Factor in DDO 154, a Low Metallicity Dwarf Irregular Galaxy

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