Greg Bryan
Tuesday November 19th, 2024
4:00pm Eastern
Marlar Lounge 37-252/37-272 and via Zoom
"Greg Bryan chairs the Department of Astronomy at Columbia University. The paper on X-ray clusters that grew out of his PhD thesis with Michael Norman has over 2000 citations. A quarter century ago he was a Hubble Fellow here at MIT. The IMAX film 'Cosmic Voyage', for which he did visualizations, was nominated for an Oscar."
- Paul Schechter
A multiscale physics approach to understanding galaxy evolution
The need for a comprehensive and predictive model for galaxy formation and evolution has never been greater -- new and upcoming facilities will generate enormous amounts of cosmological-scale data, but using it to understand the fundamental physics of dark energy and matter will require advances in how we model such systems. I will describe a recent effort to do this, focusing in particular on recent advances in our understanding of the physics regulating galaxy formation and evolution. In particular, I will show how studying the small-scale processes involved in the interaction of hot winds and cold clouds has led us to a re-evaluation of how galaxy regulation actually occurs. In contrast to most existing large-scale cosmological simulations, I will make the case that supernovae in galaxies do not eject large quantities of mass out of galaxies, but instead generate low-mass loaded, high-specific energy winds that heat the surrounding gas, moving galaxy self-regulation out of the galaxy and into the circumgalactic medium and beyond.