Tracing the mass flow in clustered star forming regions
Dunlap Institute for Astronomy and Astrophysics
Most stars in our galaxy do not form in isolation. Instead, stars are born in groups and clusters embedded within dense filaments and clumpsin molecular clouds. Many clustered star-forming regions share similar morphologies, where the greatest star formation rates are found within a central 'hub' of dense molecular gas, that is connected to streams
or filaments of additional material. To understand how stars form in clusters, we need to understand how these filaments accrete mass from the surrounding environment, funnel mass to star-forming `hubs', and fragment to form dense star-forming cores. I will present observational evidence of ongoing accretion of material onto dense filaments in a nearby young
cluster, with derived mass accretion rates that are sufficient to trigger additional fragmentation and gravitational collapse. In particular, I will show how combining observations of gas dynamics and chemistry in
star forming regions can be used to answer these questions.
|Mardi, le 18 mars 2014
|Ernest Rutherford Physics Building, R.E. Bell Conference Room (room 103)