Astronomy and Astrophysics – Astronomy
Scientific paper
Jul 1996
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1996apj...465..296h&link_type=abstract
Astrophysical Journal v.465, p.296
Astronomy and Astrophysics
Astronomy
27
Galaxy: Halo, Ism: Abundances, Ultraviolet: Stars
Scientific paper
We present new intermediate-resolution spectra (λ/Δλ = 3300) of fourteen early-type halo stars near the O VI resonance doublet at 1031.93 and 1037.62 These spectra were obtained with the Berkeley extreme and far-ultraviolet (EUV/FUV) spectrometer in the ORFEUS telescope aboard the space platform ASTRO-SPAS during the mission of space shuttle Discovery flown in 1993 September. Most of the targets are at high |b|, at a mean distance of about 2.8 kpc, providing an opportunity to study conditions in a region of the Galaxy comparatively unexplored by Copernicus (see work of Jenkins). The ORFEUS halo stars confirm the surprising paucity of O VI in the halo reported by Hurwitz et al. for two extragalactic sight lines through the southern Galactic hemisphere. We find an O VI scale height significantly lower than those reported for other highly ionized species; h0 is between about 80 pc and 600 pc if the midplane density n0 is between 1.5 and 5 x 10-8 cm-3. Only upper limits on N V exist for our sight lines; the O VI/N V ratio is constrained to lie above ˜3. The O VI/C IV ratio is about 1-3. There is an inconsistency between the mean abundance of coronal gas in the halo derived from our O VI data and the much greater abundance derived from N V (reported by Sembach & Savage) and the O VI/N V ratio of ˜15 observed in the disk and predicted by various models. We identify a foreground contribution from the radio loop I/soft X-ray enhancement along many of the high-b sight lines studied in N V as the most likely cause of the discrepancy. Unless the O VI/N V ratio in the halo falls well below its expected value, the projected column of coronal gas varies by a factor of 100 among high-b sight lines. Insofar as it is sensible to discuss "typical" values under these circumstances, we arrive at projected columns of 8 x 1013 for O VI and 5 x 1012 for N V. For comparison with models or other observations that are inherently exclusive of low i z I coronal gas, smaller columns should be adopted. The Galactic fountain model of Benjamin & Shapiro provides a self-consistent framework for interpretation of our observational results and various studies of C IV. The data are consistent with a flow velocity of 15 km s-1, isochoric cooling, a mass flux of ˜3 Msun yr-l per side, a density of ˜10-2 cm-3, and a cooling length of a few hundred pc. There is weak evidence for an excess of O VI along sight lines characterized by foreground absorption from intermediate negative velocity (INV) gas detected primarily in low-ionization species. The tentative O VI excess is about 4-8 x 1013 cm-2 and may be produced in interfaces between the cool INV gas and a hot, low-density medium. We constrain the product of the midplane pressure and filling factor in the hot phase of the interstellar medium; at log T = 6.0, P/k X fh is probably < 4000-12,000 cm-3 K assuming isothermal gas, collisional ionization equilibrium, and solar abundances.
Bowyer Stuart
Hurwitz Margaret M.
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