Investigation of faint galactic carbon stars from the first Byurakan spectral survey. III. Infrared characteristics
K. S. Gigoyan, A. Sarkissian, C. Rossi, D. Russeil, G. Kostandyan, M., Calabresi, F. Zamkotsian, M. Meftah

TL;DR
This study analyzes infrared data of 126 galactic carbon stars from multiple IR surveys, identifying their spectral types, circumstellar features, and mass-loss rates, revealing new insights into their infrared characteristics and evolutionary stages.
Contribution
It provides a comprehensive infrared analysis of galactic carbon stars, including new object identifications, spectral energy distribution features, and mass-loss rate estimations, enhancing understanding of their circumstellar environments.
Findings
Early and late-type C stars are distinguishable in IR color-color diagrams.
Objects with W2-W3 > 1.0 mag. exhibit double-peaked spectral energy distributions.
Mass-loss rates are derived for eight Mira-type variables.
Abstract
Infra-Red(IR) astronomical databases, namely, IRAS, 2MASS, WISE, and Spitzer, are used to analyze photometric data of 126 carbon stars whose spectra are visible in the First Byurakan Survey low-resolution spectral plates. Among these, six new objects, recently confirmed on the digitized FBS plates, are included. For three of them, moderate-resolution CCD optical spectra are also presented. In this work several IR color-color diagrams are studied. Early and late-type C stars are separated in the JHK Near-Infra-Red(NIR) color-color plots, as well as in the WISE W3-W4 versus W1-W2 diagram. Late N-type Asymptotic Giant Branch stars are redder in W1-W2, while early-types(CH and R giants) are redder in W3-W4 as expected. Objects with W2-W3 > 1.0 mag. show double-peaked spectral energy distribution, indicating the existence of the circumstellar envelopes around them. 26 N-type stars have IRAS…
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