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Main Author: Takeda, Yoichi
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2501.08054
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author Takeda, Yoichi
author_facet Takeda, Yoichi
contents AR Aur A+B is a close binary of astrophysical interest, because dissimilar surface compositions are reported between similar late B-type dwarfs. A new spectroscopic study on this system was carried out based on the disentangled spectra, in order to determine their atmospheric parameters and elemental abundances, The effective temperature and microturbulence (determined from the equivalent widths of Fe II lines) turned out (11150K, 0.9km/s) and (10650K, 0.1km/s) for A and B. The chemical abundances of 28 elements were derived while taking into account the non-LTE effect for Z<=15 elements (Z: atomic number). The following trends were elucidated for [X/H] (abundance of X relative to the Sun): (1) Qualitatively, [X/H] shows a rough global tendency of increasing with Z, with the gradient steeper for A than for B. (2) However, considerable dispersion is involved for A, since prominently large peculiarities are seen in specific elements reflecting the characteristics of HgMn stars (e.g., very deficient N, Al, Sc, Ni; markedly overabundant P, Mn). (3) In contrast, the Z-dependence of [X/H] for B tends to be nearly linear with only a small dispersion. These observational facts may serve as a key to understanding the critical condition for the emergence of chemical anomaly.
format Preprint
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publishDate 2025
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spellingShingle Spectroscopic study of the late B-type eclipsing binary system AR Aurigae A and B: Towards clarifying the differences in atmospheric parameters and chemical abundances
Takeda, Yoichi
Solar and Stellar Astrophysics
AR Aur A+B is a close binary of astrophysical interest, because dissimilar surface compositions are reported between similar late B-type dwarfs. A new spectroscopic study on this system was carried out based on the disentangled spectra, in order to determine their atmospheric parameters and elemental abundances, The effective temperature and microturbulence (determined from the equivalent widths of Fe II lines) turned out (11150K, 0.9km/s) and (10650K, 0.1km/s) for A and B. The chemical abundances of 28 elements were derived while taking into account the non-LTE effect for Z<=15 elements (Z: atomic number). The following trends were elucidated for [X/H] (abundance of X relative to the Sun): (1) Qualitatively, [X/H] shows a rough global tendency of increasing with Z, with the gradient steeper for A than for B. (2) However, considerable dispersion is involved for A, since prominently large peculiarities are seen in specific elements reflecting the characteristics of HgMn stars (e.g., very deficient N, Al, Sc, Ni; markedly overabundant P, Mn). (3) In contrast, the Z-dependence of [X/H] for B tends to be nearly linear with only a small dispersion. These observational facts may serve as a key to understanding the critical condition for the emergence of chemical anomaly.
title Spectroscopic study of the late B-type eclipsing binary system AR Aurigae A and B: Towards clarifying the differences in atmospheric parameters and chemical abundances
topic Solar and Stellar Astrophysics
url https://arxiv.org/abs/2501.08054