SMA observations of the W3(OH) complex: Dynamical differentiation between W3(H2O) and W3(OH)

Abstract

We present Submillimeter Array (SMA) observations of the HCN\,(3--2) and HCO+\,(3--2) molecular lines toward the W3(H2O) and W3(OH) star-forming complexes. Infall and outflow motions in the W3(H2O) have been characterized by observing HCN and HCO+ transitions. High-velocity blue/red-shifted emission, tracing the outflow, show multiple knots, which might originate in episodic and precessing outflows. `Blue-peaked' line profiles indicate that gas is infalling onto the W3(H2O) dust core. The measured large mass accretion rate, 2.3×10-3~M~yr-1, together with the small free-fall time scale, 5×103~yr, suggest W3(H2O) is in an early evolutionary stage of the process of formation of high-mass stars. For the W3(OH), a two-layer model fit to the HCN and HCO+ spectral lines and Spizter/IRAC images support that the W3(OH) H ii region is expanding and interacting with the ambient gas, with the shocked neutral gas being expanding with an expansion timescale of 6.4×103~yr. The observations suggest different kinematical timescales and dynamical states for the W3(H2O) and W3(OH).