On variations in the fine-structure constant and stellar pollution of quasar absorption systems

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Abstract

At redshifts zabs ≲ 2, quasar absorption-line constraints on space-time variations in the fine-structure constant, α, rely on the comparison of Mg II and Fe II transition wavelengths. One potentially important uncertainty is the relative abundance of Mg isotopes in the absorbers, which, if different from solar, can cause spurious shifts in the measured wavelengths and, therefore, α. Here we explore chemical evolution models with enhanced populations of intermediate-mass (IM) stars, which, in their asymptotic giant branch phase, are thought to be the dominant factories for heavy Mg isotopes at the low metallicities typical of quasar absorption systems. By design, these models partially explain recent Keck/HIRES evidence for a smaller a in z abs < 2 absorption clouds than on Earth. However, such models also overproduce N, violating observed abundance trends in high-zabs damped Lyman-α (DLA) systems. Our results do not support the recent claim of Ashenfelter et al. that similar models of IM-enhanced initial mass functions (IMFs) may simultaneously explain the HIRES varying-α data and DLA N abundances. We explore the effect of the IM-enhanced model on Si, Al and P abundances, finding it to be much less pronounced than for N. We also show that the 13C/12C ratio, as measured in absorption systems, could constitute a future diagnostic of non-standard models of the high-redshift IMF. © 2005 RAS.

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Fenner, Y., Murphy, M. T., & Gibson, B. K. (2005). On variations in the fine-structure constant and stellar pollution of quasar absorption systems. Monthly Notices of the Royal Astronomical Society, 358(2), 468–480. https://doi.org/10.1111/j.1365-2966.2005.08781.x

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