HCO, c-C3H and CF+ : three new molecules in diffuse, translucent and "spiral-arm'' clouds

Abstract

%methods We used the EMIR receiver and FTS spectrometer at the IRAM 30m to construct absorption spectra toward bright extra-galactic background sources at 195 kHz spectral resolution (≈ 0.6 ). We used the IRAM Plateau de Bure interferometer to synthesize absorption spectra of \ and HCO toward the galactic HII region W49. %results HCO, 3h\ and CF\ were detected toward the blazars \ and 3C111 having \ = 0.32 and 1.65 mag. HCO was observed in absorption from ``spiral-arm'' clouds in the galactic plane occulting W49. The complement of detectable molecular species in the 85 - 110 GHz absorption spectrum of diffuse/translucent gas is now fully determined at rms noise level δτ ≈ 0.002 at \ = 0.32 mag (\ = 1 mag) and δτ/\ ≈\ 0.003 mag-1 overall. %conclusions As with OH, \ and , the relative abundance of 3h\ varies little between diffuse and dense molecular gas, with N(3h)/N( o-c-3h2) ≈ 0.1. We find N(CF)/N(H13CO) ≈ 5, N(CF)/N() ≈ 0.005-0.01 and because N(CF) increases with \ and with the column densities of other molecules we infer that fluorine remains in the gas phase as HF well beyond \ = 1 mag. We find N(HCO)/N(H13CO) = 16 toward , 3C111 and the 40 km/s spiral arm cloud toward W49, implying X(HCO) ≈ 10-9, about 10 times higher than in dark clouds. The behaviour of HCO is consistent with previous suggestions that it forms from C\ and , even when \ is well above 1 mag. The survey can be used to place useful upper limits on some species, for instance N()/N( CS) > 32 toward 3C111, compared to 7 toward TMC-1, confirming the possibility of a gas phase formation route to .