期刊
ASTROPHYSICAL JOURNAL
卷 533, 期 1, 页码 106-112出版社
UNIV CHICAGO PRESS
DOI: 10.1086/308670
关键词
atomic processes; cosmology : miscellaneous; diffuse radiation; intergalactic medium; quasars : absorption lines
We have carried out a series of model calculations of the photoionized intergalactic medium (IGM) to determine the effects on the predicted ionic column densities due to uncertainties in the published dielectronic recombination (DR) rate coefficients. Based on our previous experimental work and a comparison of published theoretical DR rates, we estimate there is in general a factor of 2 uncertainty in existing DR rates used for modeling the IGM. We demonstrate that this uncertainty results in factors of similar to 1.9 uncertainty in the predicted N v and Si rv column densities, similar to 2.0 for O vr, and similar to 1.7 for C Iv. We show that these systematic uncertainties translate into a systematic uncertainty of up to a factor of similar to 3.1 in the Si/C abundance ratio inferred from observations. The inferred IGM abundance ratio could thus be less than (Si/C). or greater than 3(Si/C).. If the latter is true, then it suggests the metagalactic radiation field is not due purely to quasars but includes a significant stellar component. Lastly, column density ratios of Si rv to C Iv versus C II to C rv are often used to constrain the decrement in the metagalactic radiation field at the He II absorption edge. We show that the variation in the predicted Si Iv to C Iv ratio due to a factor of 2 uncertainty in the DR rates is almost as large as that due to a factor of 10 change in the decrement. Laboratory measurements of the relevant DR resonance strengths and energies are the only unambiguous method of removing the effects of these atomic physics uncertainties from models of the IGM.
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