First results from the UHRF: ultra-high-resolution observations of atomic interstellar lines towards zeta Ophiuchi

Details First results from the UHRF: ultra-high-resolution observations of atomic interstellar lines towards zeta Ophiuchi First results from the UHRF: ultra-high-resolution observations of atomic interstellar lines towards zeta Ophiuchi

Jan 1995

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1995mnras.272..333b&link_type=abstract

Monthly Notices of the Royal Astronomical Society, Volume 272, Issue 2, pp. 333-345.

Astronomy and Astrophysics

Astronomy

40

Line, Profiles-Instrumentation, Spectrographs-Stars, Individual, Zeta Oph-Ism, Atoms-Ism, Clouds.

Scientific paper

We present ultra-high-resolution observations of optical interstellar lines towards zeta Oph obtained during the commissioning phase of the new Ultra-High-Resolution Facility (UHRF) at the AAT. The UHRF has achieved its design resolving power of R~=10^6, and has very clearly resolved hyperfine splitting in three of the 11 identified Na I D-line velocity components towards zeta Oph. In addition, the intrinsic line profiles of the 3s-4p Na I doublet at 3302 A have been measured for the first time. 12 velocity components are identified in the interstellar Ca II K-line absorption profile, of which seven have definite velocity counterparts in the Na I profile. Three of the Na I velocity components have b-values which correspond to a gas temperature of about 200 K, for the case of pure thermal broadening. The strongest component in the sightline (-14.8 km s^-1) was found to have a b-value of 0.6^+0.2_-0.1 km s^-1, corresponding to a temperature of 500 K. If a true gas kinetic temperature of 54 K is assumed to apply to this component, from the H_2 rotational excitation temperature previously measured for the zeta Oph sightline, then the observed Na I and Fe I line profiles both imply an rms turbulent velocity of 0.4 km s^-1 within the cloud, just less than the local sound speed. The observed Ca II linewidths are all significantly larger than those of the corresponding Na I components. The Ca IIcomponents are interpreted as arising from warm neutral material (intercloud medium) surrounding cooler clouds, while half of the Na I components arise from cool clouds and half arise from warm intercloud material. The measured Na I/CaII column density ratios, and the inferred temperatures, are consistent with a model in which calcium is heavily depleted on to grains in cool clouds but is restored to the gas phase by impact desorption in the warm intercloud medium.

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