Your search keyword '"Leslie W. Looney"' showing total 4 results

1. Insights into star cluster formation from λ ≳ 1μm

Author

Remy Indebetouw, Barbara Whitney, Rosie Chen, Crystal Brogan, Leslie W. Looney, and Thomas Robitaille

Subjects

Physics, Star formation, Computer Science::Information Retrieval, Molecular cloud, Astronomy, Astronomy and Astrophysics, Astrophysics::Cosmology and Extragalactic Astrophysics, Star cluster, Space and Planetary Science, Stellar mass loss, Elliptical galaxy, Astrophysics::Solar and Stellar Astrophysics, Circumstellar dust, Astrophysics::Earth and Planetary Astrophysics, Astrophysics::Galaxy Astrophysics, Galaxy cluster, Open cluster

Abstract

We would like to know how molecular clouds turn into stellar clusters, and with what efficiency massive stars form in those clusters, since massive stars are the main agents responsible for evolution of the interstellar medium of galaxies, and their subsequent star-formation history. The imprint of ‘precluster’ molecular cloud conditions can be observed, but only in the least evolved, most embedded clusters, necessarily at wavelengths that can penetrate more than 10 visual magnitudes of extinction. Mid-infrared photometric imaging, most recently and extensively from Spitzer, can be used to select young stellar objects in clustered star-formation environments in our Galaxy and nearby galaxies. Relatively sophisticated methods have been developed, but the fundamental principle remains the selection of sources that have excess infrared emission from circumstellar dust. By fitting radiative-transfer models to a source's spectral-energy distribution between ~1 and ~100μm, we constrain the circumstellar dust distribution and evolutionary state. We can explore many things with this protostellar distribution in mass/luminosity and time/evolutionary state. For example we do not see strong evidence for primordial mass segregation in initial studies. We find evidence of primordial hierarchical substructure, greater clustering at the youngest stages, and even imprints of the pre-stellar Jeans scale. We see correlation of the youngest sources with dense molecular clumps and constrain the timescales for chemical processing and dispersal of those clumps. We have only begun to mine the wealth of existing Spitzer, emerging Herschel and soon ALMA data.

Published

2009

2. The Spectral Energy Distribution of the Earliest Phases of Massive Star Formation

Author

Randolf Klein, Jennifer Cooper, Leslie W. Looney, Thomas Henning, Sukanya Chakrabarti, and Sachin Shenoy

Subjects

Physics, Space and Planetary Science, Star formation, Astronomy, Spectral energy distribution, Astronomy and Astrophysics, Astrophysics

Abstract

We have selected cold and massive (M > 100M⊙) cores as candidates for early phases of star formation from millimeter continuum surveys without associations at short wavelengths. We compared the millimeter continuum peak positions with IR and radio catalogs and excluded cores that had sources associated with the cores’ peaks. We compiled a list of 173 cores in over 117 regions that are candidates for very early phases of Massive Star Formation (MSF). Now with the Spitzer and Herschel archives, these cores can be characterized further. We are compiling this data set to construct the complete spectral energy distribution (SED) in the mid- and far-infrared with good spatial resolution and broad spectral coverage. This allow us to disentangle the complex regions and model the SED of the deeply embedded protostars/clusters. We present a status report of our efforts: a preview of the IR properties of all cores and their embedded source inferred from a grey body fit to the compiled SEDs.

Published

2015

3. Evolution of HII Regions around Massive YSOs

Author

Jonathan Seale, Robert A. Gruendl, Jessica Marie Evans, C.-H. Rosie Chen, Remy Indebetouw, Leslie W. Looney, You-Hua Chu, and Ian W. Stephens

Subjects

Physics, Solar mass, Infrared, Young stellar object, Astronomy and Astrophysics, Astrophysics, Silicate, law.invention, Telescope, chemistry.chemical_compound, chemistry, Space and Planetary Science, law, Large Magellanic Cloud

Abstract

We survey HII free-free emission around ∼60 spectroscopically confirmed young stellar objects (YSOs) in the Large Magellanic Cloud using the Australia Telescope Compact Array (ATCA) at 3.3 and 5.5 cm. From each YSOs' infrared spectrum, we: a) quantify how embedded/evolved the YSO is through principle component analysis (PCA) of the silicate absorption (Seale et al. 2009); and b) estimate the mass from SED models (Robitaille et al. 2007). We have four main results: (1) Based on mass estimates from SED models and ATCA detection limits, we find that most massive YSOs are in HII regions regardless of age; (2) Older massive YSOs (as indicated by silicate PCA index) are much more likely to be resolved than younger YSOs, indicating evolving HII regions; (3) Resolved (typically older) sources usually have lower densities. Thus, in our survey we see a transition from ultra-compact HII to HII regions; and (4) We find that accretion about the massive YSO is likely non-spherical, resulting in HII regions in the shape of prolate spheroids.

Published

2012

4. Southern IRDCs seen with Spitzer/MIPS

Author

Th. Henning, Ra. Klein, Leslie W. Looney, H. Linz, Lars-Åke Nyman, and B. Stecklum

Subjects

Physics, Space and Planetary Science, Cosmic infrared background, Astronomy, Astronomy and Astrophysics, Astrophysics

Abstract

Infrared dark clouds (IRDCs) are generally assumed to be a promising hunting ground for tracing very early stages of massive star formation. Observations with Spitzer are a viable tool to probe their interiors that are still dominated by strong dust extinction even at 8 μm. With Spitzer/MIPS, we have observed several IRDCs at 24 and 70 micron. We generally find weak 24 micron sources within the IRDCs. However, at 70 micron these sources remain weak and thus indicate lower luminosities at the current state of evolution. Indications for internal substructures exist, separating regions with compact IR sources from even more dark regions.

Published

2006