Multi-frequency Studies of Massive Cores with Complex Spatial and Kinematic Structures

Abstract

Five regions of massive star formation have been observed in various molecular lines in the frequency range 85-89 GHz. The studied regions possess dense cores, which host young stellar objects. The physical parameters of the cores are estimated, including kinetic temperatures ( 20-40 K), sizes of the emitting regions ( 0.1-0.6 pc), and virial masses ( 40-500 M). Column densities and abundances of various molecules are calculated in the local thermodynamical equilibrium approximation. The core in 99.982+4.17, associated with the weakest IRAS source, is characterized by reduced molecular abundances. Molecular line widths decrease with increasing distance from the core centers (b). For b 0.1~pc, the dependences V(b) are close to power laws ( b-p), where p varies from 0.2 to 0.5, depending on the object. In four cores, the asymmetries of the optically thick HCN(1--0) and HCO+(1--0) lines indicate systematic motions along the line of sight: collapse in two cores and expansion in two others. Approximate estimates of the accretion rates in the collapsing cores indicate that the forming stars have masses exceeding the solar mass.