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A probable stellar solution to the cosmological lithium discrepancy (2006)

Grundahl, F. ; Richard, O. ; Barklem, P. S. ; [et al.]

[s.l.] : Nature Publishing Group

Nature 442 (2006), S. 657-659

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ISSN: 1476-4687

Source: Nature Archives 1869 - 2009

Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics

Notes: [Auszug] The measurement of the cosmic microwave background has strongly constrained the cosmological parameters of the Universe. When the measured density of baryons (ordinary matter) is combined with standard Big Bang nucleosynthesis calculations, the amounts of hydrogen, helium and lithium produced ...

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1038/nature05011

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Non-LTE effects in Na I spectral lines in stellar atmospheres (2000)

Mashonkina, L. I. ; Shimanskii, V. V. ; Sakhibullin, N. A.

Springer

Astronomy reports 44 (2000), S. 790-803

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ISSN: 1562-6881

Source: Springer Online Journal Archives 1860-2000

Topics: Physics

Notes: Abstract The paper examines the statistical equilibrium of Na I in stellar atmospheres with a wide range of parameters: T eff=4000−12500 K, logg=0.0−4.5, and heavy element content [A] from 0.5 to −4.0. The effect of the “overrecombination” of Na I (i.e., excess relative to the equilibrium number density of Na I) is present over the entire range of parameters considered, and increases with T eff and luminosity. Na I lines are stronger than in the LTE case, so that non-LTE corrections to the sodium abundance, ΔNLTE, are negative. Eight Na I lines commonly employed in abundance analyses are used to construct the dependences of the non-LTE corrections on T eff, logg, and metallicity. The non-LTE corrections are small only for the Na I λλ615.4, 616.0 nm lines in main-sequence stars: |ΔNLTE| ≤0.08 dex. In all other cases, ΔNLTE depends strongly on T eff and logg, and a non-LTE treatment must be applied if the sodium abundance is to be determined with an accuracy no worse than 0.1 dex. The profiles of solar Na I lines are analyzed in order to empirically refine two types of atomic parameters required for the subsequent analysis of the stellar spectra. In the solar atmosphere, inelastic collisions with hydrogen atoms influence the statistical equilibrium of Na I only weakly, and the classical Unsold formula underestimates the van der Waals constant C 6. The empirical correction ΔlogC 6 is from 0.6 to 2 for various Na I lines. The sodium abundance in the solar atmosphere is determined based on line-profile analyses, yielding different results depending on whether the model atmospheres of Kurucz (logɛNa=6.20±0.02) or Holweger and Muller (logɛNa=6.28±0.03) are applied.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1134/1.1327637

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3

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Non-LTE effects in Mg I lines for various types of stars (2000)

Shimanskaya, N. N. ; Mashonkina, L. I. ; Sakhibullin, N. A.

Springer

Astronomy reports 44 (2000), S. 530-547

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ISSN: 1562-6881

Source: Springer Online Journal Archives 1860-2000

Topics: Physics

Notes: Abstract We have performed a detailed statistical-equilibrium analysis based on a 49-level model of the magnesium atom for the atmospheres of stars of various spectral types: T eff=4500–12000 K, logg=0.0–4.5, and [M/H]=0 to −3. In the atmospheres of stars with T eff〉5500 K, deviations from LTE for Mg I are due to photoionization by ultraviolet radiation from the 3p level; i.e., neutral magnesium is in a state of “superionization.” When T eff〈5500 K, the populations of the Mg I levels differ from their LTE values due to radiative processes in bound-bound transitions. We analyzed Mg I lines in the solar spectrum in order to empirically refine certain atomic parameters (the van der Waals broadening constant C 6 and cross sections for photoionization and collisional interactions with hydrogen atoms) and the magnesium abundance in the solar atmosphere. We studied non-LTE effects for five Mg I lines for a wide range of stellar parameters. In the case of dwarfs and subdwarfs, the magnitude of non-LTE corrections to magnesium abundances does not exceed 0.1 dex for the λλ 4571, 4703, 5528, and 5711 Å lines but can be as large as ±0.2 dex for the λλ 3829–3838, 5172, and 5183 Å lines. The non-LTE corrections for giants and supergiants do not exceed 0.15 dex for the λλ 4571 and 5711 Å lines but can reach ±0.20 dex and even more for the λλ 4703, 5528, 3829–3838, 5172, and 5183 Å lines.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1134/1.1306354

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Non-LTE analysis of the formation of EuII lines in the atmospheres of solar-type stars (2000)

Mashonkina, L. I.

Springer

Astronomy reports 44 (2000), S. 558-568

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ISSN: 1562-6881

Source: Springer Online Journal Archives 1860-2000

Topics: Physics

Notes: Abstract A method to analyze the statistical equilibrium of the EuII ion based on a 36-level model atom has been developed. The formation of EuII lines without assuming local thermodynamic equilibrium (LTE) is considered for T eff=5500–7000 K, logg=4.0, and metallicities [A] from 0 to −1.5. Non-LTE effects in the level populations are primarily due to radiative pumping of excited states from the ground and low-lying levels, which leads to over-population of upper relative to lower levels. As a result, the studied λ4129 and λ6645 Å lines are weaker than in the LTE case. However, due to the small energy differences between even low-lying EuII levels, collisional coupling is strong, and deviations from LTE in EuII lines are modest: for the Sun, non-LTE corrections to the abundance are only 0.04 dex. The non-LTE effects grow with an increase in the effective temperature and with a decrease in the metallicity, so that non-LTE abundance corrections can reach 0.12 dex for T eff=5500K, logg=4.0, [A]=−1.5 and 0.1 dex for T eff=7000K, logg=4.0, [A]=0. The effect of inaccuracy in the atomic parameters for EuII on the non-LTE calculations is examined. Analysis of the profiles of the solar EuII λ4129 and λ6645 Å lines is used to empirically refine estimates of the efficiency of collisional processes in forbidden transitions in establishing the distribution of EuII ions over excited states.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1134/1.1306356

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On the problem of selective enhancement of barium in the atmospheres of BaII stars (1996)

Mashonkina, L. I. ; Začs, L.

Springer

Astrophysics and space science 236 (1996), S. 185-199

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ISSN: 1572-946X

Source: Springer Online Journal Archives 1860-2000

Topics: Physics

Notes: Abstract High-resolution spectroscopy and standard LTE analysis of 31 barium and normal red giants (Astron. Astrophys. 283, 1994, p. 937) shows a selective enhancement of Ba (∼+0.5 dex) in two stars. HR 3845 and HD 130386, relative to the standard star ε Vir. We do not overinterpret these enhancements due to possible errors in the equivalent widths or in the atmospheric parameters. The non-LTE analysis of BaII in the atmospheres of red (barium) giants shows that the corrections for the non-LTE effects is relatively small, reaching a maximum of −0.16 dex, therefore, the enhancement of barium had apparently another nature.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00645143

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