Circumstellar Disk Masses in Young Clusters
The masses of circumstellar disks provide direct constraints on massive planet formation, since planets require a certain amount of building blocks. For example, Jupiter required >0.01 solar masses of matter to form in our solar system. Rich clusters provide an opportunity to study the frequency and evolution of circumstellar disks around large numbers of stars spanning two or more decades in stellar mass. Moreover, most stars (including our sun) form in clustered regions, and so understanding protoplanetary disks in rich clusters provides basic information about the typical mode of planet formation.

I have used OVRO, the SMA, and CARMA interferometers to study the disk mass distribution in rich clusters. Recent observations of the Orion Nebula cluster (Eisner et al. 2008) showed that less than ten percent of systems appear capable of forming massive, Jovian planets (see also this press release). However, a number of significant uncertainties remain. We are currently extending these studies to younger sources and obtaining larger wavelength coverage, to remove some of these uncertainties. ALMA will be extremely powerful for this work.


A mosaic of the Orion nebula cluster obtained with CARMA and the SMA. Circles indicate detected sources. Only a smal fraction of known cluster members show emission at milimeter wavelengths indicative of massive protoplanetary disks.


Josh Eisner; May 25, 2010