High resolution near-infrared imaging of the trapezium: A stellar census

Citations Over TimeTop 1% of 1994 papers

Abstract

We present high spatial resolution (0.35 and 0.65 arcsec full width at half maximum (FWHM)) near-infrared images of the central 0.2x0.2 pc of the Trapezium Cluster in the Orion Nebula, centered on the Trapezium OB stars. These images provide the most complete census of stars in this region, and we give accurate positions and near-infrared (2.1 microns) magnitudes for 123 stars. After accounting for line-of-sight projection, we estimate a stellar density for the cluster of approximately 4.7 X 104 stars per cubic parsec in the approximately 0.1 pc diameter core. We identify stellar counterparts to virtually all the known dense knots of ionized gas seen at optical and radio wavelengths, strongly supporting the hypothesis that many are either intrinsic stellar radio emitters or circumstellar disks around stars, and not simply dense clumps of gas and dust. We derive approximate masses for the stars associated with the compact knots, finding that the majority are relatively low mass.

Related Papers

• → Which Stars Are Ionizing the Orion Nebula?(2017)50 cited
• → The structure of the Orion nebula(1974)57 cited
• → Internal Motions in the Orion Nebula(1969)6 cited
• → A Model for the Expansion of the Orion Nebula.(1963)1 cited
• → Which Stars are Ionizing the Orion Nebula ?(2017)1 cited