VLA and GBT Observations of Orion B (NGC 2024, W12) : Photo-dissociation Region Properties and Magnetic field

Abstract

We present images of C110α and H110α radio recombination line (RRL) emission at 4.8 GHz and images of H166α, C166α and X166α RRL emission at 1.4 GHz, observed toward the starforming region NGC 2024. The 1.4 GHz image with angular resolution 70\ is obtained using VLA data. The 4.8 GHz image with angular resolution 17\ is obtained by combining VLA and GBT data. The similarity of the LSR velocity (10.3 \) of the C110α line to that of lines observed from molecular material located at the far side of the \ region suggests that the photo dissociation region (PDR) responsible for C110α line emission is at the far side. The LSR velocity of C166α is 8.8 . This velocity is comparable with the velocity of molecular absorption lines observed from the foreground gas, suggesting that the PDR is at the near side of the \ region. Non-LTE models for carbon line forming regions are presented. Typical properties of the foreground PDR are TPDR 100 K, nePDR 5 , nH 1.7 × 104 , path length l 0.06 pc and those of the far side PDR are TPDR 200 K, nePDR 50 , nH 1.7 × 105 , l 0.03 pc. Our modeling indicates that the far side PDR is located within the \ region. We estimate magnetic field strength in the foreground PDR to be 60 μG and that in the far side PDR to be 220 μG. Our field estimates compare well with the values obtained from OH Zeeman observations toward NGC 2024.