ISM -- Oral Presentation
Multi-Wavelength Diagnostics of Starbirth in Starbursts
William Waller, Tufts University
From the Orion Nebula to the Hubble Deep Field, starburst
activity can be seen transforming galaxian clouds of gas into populous
clusters of stars. The pyrotechnics and chemical enrichment associated
with this activity have led to outcomes as ubiquitous as interstellar
dust and as exquisite as life on Earth. In this talk, I will focus on
the circumstances of star formation in the environmental context of
ongoing starburst activity. I begin with the premises that (1) the
formation of a single star takes time, (2) the formation of a populous
cluster takes even more time, and (3) ``stuff'' happens in the interim.
Hubble images of the Orion Nebula and Eagle Nebula show how hot stars
can excavate neighboring clouds of gas and photoevaporate the star-forming
cores that are exposed. Hubble observations of giant HII regions in M33
reveal a significant variation in the stellar populations, such that the
most metal-rich HII regions contain the greatest proportions of the most
massive stars. ISO and Spitzer observations of these same HII regions
reveal corresponding variations in the nebular response. These multi-wavelength
diagnostics of the stellar-nebular feedback in galaxian starbursts
suggest a star-forming mechanism which is subject to photo-evaporative
ablation -- an erosive process that is mediated by the metal abundance
and corresponding amounts of protective dust in the starbursting environment.