Project Details
The stellar and sub-stellar content of the Trapezium Cluster
Applicant
Professor Dr. Rolf Chini
Subject Area
Astrophysics and Astronomy
Term
from 2009 to 2012
Project identifier
Deutsche Forschungsgemeinschaft (DFG) - Project number 133796603
The Trapezium Cluster is one of the prime targets to study the formation and evolution of stars, proto-planetary disks and sub-stellar objects. Apart from its proximity it is the large number and number density of high- and low-mass stars, the wide range in stellar mass, and its extreme youth that make this cluster ideal to investigate all aspects of star and planet formation. Nevertheless, despite numerous investigations, a comprehensive IR study of the Trapezium cluster - i.e. complete and uniform in terms of spatial coverage (and resolution) as well as in terms of sensitivity - is still missing. At the VLT we have recently performed the most extensive IR study on this important cluster, covering an area of 21’ x 28’ and consisting of 36 individual frames. The observations could be done in superb seeing conditions (~ 0.5”) resulting in unprecedented limiting magnitudes of J = 24, H = 20 and K = 18, respectively. A PhD student is required to reduce and analyze this huge amount of data and to study the following issues:- The detailed shape of a truly initial mass spectrum from 50 M⊙ to sub-stellar masses.- The apparent age spread in a region thought to have undergone triggered star formation.- The time sequence of star formation as a function of stellar mass.- The size of the disk population as witnessed by IR excesses and direct imaging.- Trends of all these aspects with cluster radius.In combination with existing optical and MIR photometry, spectroscopy, and X-ray data this project will provide a complete overview of one of the most important clusters in stellar astrophysics. The scientific relevance of the current project has been acknowledged by the ESO program committee.
DFG Programme
Research Grants