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NRAO/Socorro Colloquium Series

Jonathan Tan

University of Florida


Massive Star Formation Through The Universe

I review the physical processes involved in massive star and star cluster formation. I describe how these are combined in a theoretical model - Core Accretion - for massive star formation, which assumes this process is a scaled-up version of low-mass star formation. The assumption of initially massive starless cores that are near virial equilibrium can be tested by studies of Infrared Dark Clouds. I show some of our latest observations of these clouds, including results from ALMA. At later stages when the protostar is forming and becoming infrared bright, the morphology is determined by bipolar outflow cavities. Their appearance from ~10 to 40 microns tests the properties of the core immediately surrounding the massive protostar. The predictions of the model appear to be validated in at least several nearby examples. The case of the massive protostar in Orion KL is more complex, but I discuss how it also can be understood in the context of Core Accretion theory. Finally, I discuss application of massive star formation theory to the early universe: how massive were the first stars and could they have been the progenitors of supermassive black holes?




April 19, 2013
11:00 am

Array Operations Center Auditorium

All NRAO employees are invited to attend via video, available in Charlottesville Auditorium, Green Bank Room 137 and Tucson N525.

Local Host: Laura Perez


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