MAJORS II: HCO+& HCN Abundances in W40

Abstract

We present observations of HCN and HCO+ J = 3 - 2 in the central 424'' × 424'' region of the W40 massive star forming region. The observations were taken as part of a pilot project for the MAJORS large program at the JCMT telescope. By incorporating prior knowledge of N(H2) and TK, assuming a constant density, and using the RADEX radiative transfer code we found that the HCN and HCO+ abundances range from X(HCN) = 0.4-7.0 × 10-8 and X(HCO+) = 0.4-7.3 × 10-9. Additional modelling using the NAUTILUS chemical evolution code, that takes H2 density variations into account, however, suggests the HCN and HCO+ abundances may be fairly constant. Careful modelling of three different positions finds X(HCN) = 1.3-1.7 × 10-8, X(HCO+) = 1.3-3.1 × 10-9. Cross-comparison of the two models also provides a crude estimate of the gas density producing the HCN and HCO+ emission, with H2 densities in the range 5 × 104 - 5 × 105 cm-3, suggesting that the HCN and HCO+ emission does indeed arise from dense gas. High UV intensity (e.g. Go > a few thousand) has no effect on the abundances in regions where the visual extinction is large enough to effectively shield the gas from the UV field. In regions where AV < 6, however, the abundance of both species is lowered due to destructive reactions with species that are directly affected by the radiation field.