Abstract
To measure interstellar atomic deuterium abundances, we used the Interstellar Medium Absorption Profile Spectrograph (IMAPS) to obtain spectra of gamma2 Vel and zeta Pup over the wavelength interval 930-1150 A at a resolving power of 80,000. The interstellar D I features are resolved and cleanly separated from interstellar H I in the Ly-delta and Ly-epsilon profiles of both sight lines, and also in the Ly-gamma profile of zeta Pup. The D I profiles were modeled using a velocity template derived from several N I lines in the IMAPS spectra recorded at higher S/N. To find the best D I column density, we minimized chi-squares for model D I profiles that included not only the N(D I) as a free parameter, but also the effects of several potential sources of systematic error which could also be varied. For both stars, H I column densities were measured by analyzing Ly-alpha absorption profiles in a large number of IUE high dispersion spectra. Ultimately we found that D/H = 2.18(+0.36,-0.31)e-5 for gamma2 Vel and 1.42(+0.25,-0.23)e-5 for zeta Pup, values that contrast markedly with D/H derived in Paper I for delta Ori (the stated errors are 90% confidence limits). Evidently, the atomic D/H ratio in the ISM, averaged over path lengths of 250 to 500 pc, exhibits significant spatial variability. Furthermore, variations in D/H do not appear to be anticorrelated with N/H. Within the framework of standard Big Bang Nucleosynthesis, the large value of D/H found toward gamma2 Vel is equivalent to a cosmic baryon density of Omega_B h^2 = 0.023 (+-0.002), which we regard as an upper limit since there is no correction for the destruction of deuterium in stars.
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