Molecules in the early universe

The formation of first molecules, negative Hydrogen ions, and molecular ions in a model of the Universe with cosmological constant and cold dark matter is studied. The cosmological recombination is described in the framework of modified model of the effective 3-level atom, while the kinetics of chem...

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Bibliographic Details
Published in:Kinematics and physics of celestial bodies 2017-11, Vol.33 (6), p.255-264
Main Authors: Novosyadlyj, B., Sergijenko, O., Shulga, V. M.
Format: Article
Language:English
Subjects:
Astrochemistry
Astronomy
Chemical reactions
Cold dark matter
Cosmological constant
Dark matter
Deuterium
Extragalactic Astronomy
Helium
Hydrogen
Hydrogen ions
Ionization
Molecular ions
Observations and Techniques
Parameter uncertainty
Physics
Physics and Astronomy
Reaction kinetics
Red shift
Universe
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Summary:The formation of first molecules, negative Hydrogen ions, and molecular ions in a model of the Universe with cosmological constant and cold dark matter is studied. The cosmological recombination is described in the framework of modified model of the effective 3-level atom, while the kinetics of chemical reactions is described in the framework of the minimal model for Hydrogen, Deuterium, and Helium. It is found that the uncertainties of molecular abundances caused by the inaccuracies of computation of cosmological recombination are approximately 2–3%. The uncertainties of values of cosmological parameters affect the abundances of molecules, negative Hydrogen ions, and molecular ions at the level of up to 2%. In the absence of cosmological reionization at redshift z = 10, the ratios of abundances to the Hydrogen one are 3.08 × 10 –13 for H – , 2.37 × 10 –6 for H 2 , 1.26 × 10 –13 for H 2 + , 1.12 × 10 –9 for HD, and 8.54 × 10 –14 for HeH + .
ISSN:0884-5913
1934-8401
DOI:10.3103/S088459131706006X