Pamela Freeman scite author profile

The work of showed that the mass distributions of young massive stellar clusters were truncated above a maximum-mass scale in the nearby galaxy M83 and that this truncation mass varies with galactocentric radius. Here, we present a cloud-based analysis of ALMA CO(1 → 0) observations of M83 to search for such a truncation mass in the molecular cloud population. We identify a population of 873 molecular clouds in M83 that is largely similar to those found in the Milky Way and Local Group galaxies, though clouds in the centre of the galaxy show high surface densities and enhanced turbulence, as is common for clouds in high-density nuclear environments. Like the young massive clusters, we find a maximum-mass scale for the molecular clouds that decreases radially in the galaxy. We find the most massive young massive cluster tracks the most massive molecular cloud with the cluster mass being 10 −2 times that of the most massive molecular cloud. Outside the nuclear region of M83 (R g > 0.5 kpc), there is no evidence for changing internal conditions in the population of molecular clouds, with the average internal pressures, densities, and free-fall times remaining constant for the cloud population over the galaxy. This result is consistent with the bound cluster formation efficiency depending only on the large-scale properties of the ISM, rather than the internal conditions of individual clouds.

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Mapping jet–ISM interactions in X-ray binaries with ALMA: a GRS 1915+105 case study

Tetarenko

Freeman

Rosolowsky

et al. 2017

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We present Atacama Large Millimetre/Sub-Millimetre Array (ALMA) observations of IRAS 19132+1035, a candidate jet-ISM interaction zone near the black hole X-ray binary (BHXB) GRS 1915+105. With these ALMA observations (combining data from the 12 m array and the Atacama Compact Array), we map the molecular line emission across the IRAS 19132+1035 region. We detect emission from the 12 CO [Given the morphological, spectral, and kinematic properties of this molecular emission, we present several lines of evidence that support the presence of a jet-ISM interaction at this site, including a jet-blown cavity in the molecular gas. This compelling new evidence identifies this site as a jet-ISM interaction zone, making GRS 1915+105 the third Galactic BHXB with at least one conclusive jet-ISM interaction zone. However, we find that this interaction occurs on much smaller scales than was postulated by previous work, where the BHXB jet does not appear to be dominantly powering the entire IRAS 19132+1035 region. Using estimates of the ISM conditions in the region, we utilize the detected cavity as a calorimeter to estimate the time-averaged power carried in the GRS 1915+105 jets of (8.4 +7.7 −8.1 ) × 10 32 erg s −1 . Overall, our analysis demonstrates that molecular lines are excellent diagnostic tools to identify and probe jet-ISM interaction zones near Galactic BHXBs.

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Evaluating the Quick Fix: Weight Loss Drugs and Cellular Respiration

Freeman¹,

Maki²,

Thoemke³

et al. 2017

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Disappearance and Mortality Causes in Thirteen-lined Ground Squirrel (Ictidomys tridecemlineatus) Juveniles

Freeman

Bachman²

2016

The American Midland Naturalist

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Pamela Freeman

The varying mass distribution of molecular clouds across M83

Mapping jet–ISM interactions in X-ray binaries with ALMA: a GRS 1915+105 case study

Evaluating the Quick Fix: Weight Loss Drugs and Cellular Respiration

Disappearance and Mortality Causes in Thirteen-lined Ground Squirrel (Ictidomys tridecemlineatus) Juveniles

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