Data

Data from : Angular momentum regulates H I gas content and H I central hole size in the discs of spirals

The University of Western Australia
Murugeshan, Chandrashekar ; Kilborn, Virginia A. ; Obreschkow, Danail ; Glazebrook, Karl ; Lutz, Katharina ; Džuďzar, Robert ; Dénes, Helga
Viewed: [[ro.stat.viewed]] Cited: [[ro.stat.cited]] Accessed: [[ro.stat.accessed]]
ctx_ver=Z39.88-2004&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&rfr_id=info%3Asid%2FANDS&rft_id=info:doi10.1093/mnras/sty3265&rft.title=Data from : Angular momentum regulates H I gas content and H I central hole size in the discs of spirals&rft.identifier=10.1093/mnras/sty3265&rft.publisher=SAO/NASA Astrophysics Data System (ADS)&rft.description=The neutral atomic hydrogen (H I) content of spiral galaxies has been observed to vary with environment, with more H I-deficient spirals residing in high-density environments. This can be attributed to environmental effects such as ram pressure stripping and tidal interactions, which remove H I from the discs of galaxies. However, some spirals in low-density environments have also been observed to have relatively low H I mass fractions. The low densities of the intergalactic medium and lack of nearby galaxies in such environments make ram pressure stripping and tidal interactions unlikely candidates of gas removal. What then could be making these spirals H I deficient? Obreschkow et al. introduced a parameter-free model for the neutral atomic gas fraction (fatm), in a symmetric equilibrium disc as a function of the global atomic stability parameter (q), which depends on specific angular momentum. In order to examine if this model accounts for H I-deficient galaxies in low-density environments, we have used the M_{H I}-MR scaling relation to select six H I-deficient spiral galaxies and observed them with the Australia Telescope Compact Array. By measuring their f_{atm} and q values we find that the galaxies owe their observed H I deficiencies to low specific angular momenta. Additionally, we also find that the central H I hole sizes of our sample galaxies are related to their q values, following the prediction of Obreschkow et al. This result brings to light the importance of angular momentum in understanding the physics of the interstellar medium in the discs of galaxies and consequently their evolution.&rft.creator=Murugeshan, Chandrashekar &rft.creator=Kilborn, Virginia A. &rft.creator=Obreschkow, Danail &rft.creator=Glazebrook, Karl &rft.creator=Lutz, Katharina &rft.creator=Džuďzar, Robert &rft.creator=Dénes, Helga &rft.date=2019&rft.relation=http://research-repository.uwa.edu.au/en/publications/7141be27-d625-47ee-b326-cdd50e2e351c&rft_subject=galaxies: evolution&rft_subject=galaxies: fundamental parameters&rft_subject=galaxies: ISM&rft_subject=galaxies: kinematics and dynamics&rft_subject=Astrophysics - Astrophysics of Galaxies&rft.type=dataset&rft.language=English Access the data
Cite Saved to MyRDA Save to MyRDA

Access:

Open

Full description

The neutral atomic hydrogen (H I) content of spiral galaxies has been observed to vary with environment, with more H I-deficient spirals residing in high-density environments. This can be attributed to environmental effects such as ram pressure stripping and tidal interactions, which remove H I from the discs of galaxies. However, some spirals in low-density environments have also been observed to have relatively low H I mass fractions. The low densities of the intergalactic medium and lack of nearby galaxies in such environments make ram pressure stripping and tidal interactions unlikely candidates of gas removal. What then could be making these spirals H I deficient? Obreschkow et al. introduced a parameter-free model for the neutral atomic gas fraction (fatm), in a symmetric equilibrium disc as a function of the global atomic stability parameter (q), which depends on specific angular momentum. In order to examine if this model accounts for H I-deficient galaxies in low-density environments, we have used the M_{H I}-MR scaling relation to select six H I-deficient spiral galaxies and observed them with the Australia Telescope Compact Array. By measuring their f_{atm} and q values we find that the galaxies owe their observed H I deficiencies to low specific angular momenta. Additionally, we also find that the central H I hole sizes of our sample galaxies are related to their q values, following the prediction of Obreschkow et al. This result brings to light the importance of angular momentum in understanding the physics of the interstellar medium in the discs of galaxies and consequently their evolution.

Notes

External Organisations
Swinburne University of Technology; ARC Centre of Excellence for Astrophysics in Three Dimensions (ASTRO3D); ARC Centre of Excellence for All-sky Astrophysics; Commonwealth Scientific & Industrial Research Organisation; Université de Strasbourg; Australian National University; Netherlands Foundation for Research in Astronomy
Associated Persons
Chandrashekar Murugeshan (Creator); Virginia A. Kilborn (Creator); Karl Glazebrook (Creator); Katharina Lutz (Creator); Robert Džuďzar (Creator); Helga Dénes (Creator)

Issued: 2019-02

This dataset is part of a larger collection

Click to explore relationships graph
Help

Related Publications

Related Organisations

Related People

Related Websites

Subjects
Astrophysics - Astrophysics of Galaxies | galaxies: ISM | galaxies: evolution | galaxies: fundamental parameters | galaxies: kinematics and dynamics |

User Contributed Tags    

Login to tag this record with meaningful keywords to make it easier to discover

Identifiers
Similar data you may be interested in: