Physical Conditions in the Foreground Gas of Reflection Nebulae: NGC 2023, vdB 102, and NGC 7023

Abstract

High-resolution optical spectra of HD 37903 and HD 147009, which illuminate the reflection nebulae NGC 2023 and vdB 102, were obtained for comparison with our results for HD 200775 and NGC 7023. Ground-based measurements of the molecules CH, C2, and CN and the atoms Na I and K I were analyzed to extract physical conditions in the foreground cloud. Estimates of the gas density, gas temperature, and flux of ultraviolet radiation were derived and were compared with the results from infrared and radio studies of the main molecular cloud. The conditions are similar to those found in studies of diffuse clouds. The foreground material is less dense than the gas in the molecular cloud behind the star(s). The gas temperature was set at 40 K, the temperature determined for the foreground gas in NGC 7023. The flux of ultraviolet radiation was found to be less intense than in the molecular material behind the star(s). The column densities of Na I and K I were reproduced reasonably well when the extinction curve for the specific line of sight was adopted. We obtained NEWSIPS data from the IUE archive for HD 37903 and HD 200775. The ultraviolet data on C I and CO allow extraction of the physical conditions by alternate methods. General agreement among the various diagnostics was found, leading to self-consistent pictures of the foreground photodissociation regions. An appendix describes checks on the usefulness of IUE NEWSIPS data for interstellar studies. Equivalent widths are compared with a previous analysis of IUE observations for interstellar gas toward 20 Aql. Excellent agreement is found with NEWSIPS results having smaller errors. A comparison of NEWSIPS data for C I toward X Per with data acquired with the Hubble Space Telescope shows similar levels of agreement in equivalent widths and that the derived column densities from IUE results are accurate to better than a factor of 2 for absorption lines of moderate strength.