An 8.5 GHz Arecibo survey of Carbon Recombination Lines toward Ultra-compact regions: Physical properties of dense molecular material
Abstract
We report here on a survey of carbon recombination lines (RLs) near 8.5 GHz toward 17 ultra-compact regions ( s). Carbon RLs are detected in 11 directions, indicating the presence of dense photodissociation regions (PDRs) associated with the s. In this paper, we show that the carbon RLs provide important, complementary information on the kinematics and physical properties of the ambient medium near s. Non-LTE models for the carbon line forming region are developed, assuming that the PDRs surround the s, and we constrained the model parameters by multi-frequency RL data. Modeling shows that carbon RL emission near 8.5 GHz is dominated by stimulated emission and hence we preferentially observe the PDR material that is in front of the continuum. We find that the relative motion between ionized gas and the associated PDR is about half that estimated earlier, and has an RMS velocity difference of 3.3 . Our models also give estimates for the PDR density and pressure. We found that the neutral density of PDRs is typically > 5 × 105 and s can be embedded in regions with high ambient pressure. Our results are consistent with a pressure confined region model where the stars are moving relative to the cloud core. Other models cannot be ruled out, however. Interestingly, in most cases, the PDR pressure is an order of magnitude larger than the pressure of the ionized gas. Further investigation is needed to understand this large pressure difference.
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