# Constraining stellar parameters and atmospheric dynamics of the carbon   AGB star V Oph

**Authors:** Gioia Rau, Keiichi Ohnaka, Markus Wittkowski, Vladimir Airapetian,, Kenneth G. Carpenter

arXiv: 1907.08693 · 2019-09-11

## TL;DR

This study models the atmosphere and dust layers of the carbon-rich AGB star V Oph using interferometric data and dynamic atmosphere models, revealing insights into its mass loss mechanisms, atmospheric structure, and potential reclassification.

## Contribution

It applies the latest DARWIN models to interpret VLTI-MIDI data of V Oph, providing detailed stellar parameters and exploring the role of pulsation and magnetic fields in atmospheric dynamics.

## Key findings

- Dynamic models explain observed mid-infrared spectra and visibilities fairly well.
- Estimated stellar parameters: T_eff=2600K, L_bol=3585L_sun, M=1.5M_sun.
- V Oph may be reclassified as a semi-regular star.

## Abstract

Molecules and dust produced by the atmospheres of cool evolved stars contribute to a significant amount of the total material found in the interstellar medium. To understand the mechanism behind the mass loss of these stars, it is of pivotal importance to investigate the structure and dynamics of their atmospheres.   Our goal is to verify if the extended molecular and dust layers of the carbon-rich asymptotic giant branch (AGB) star V Oph, and their time variations, can be explained by dust-driven winds triggered by stellar pulsation alone, or if other mechanisms are operating.   We model V Oph mid-infrared interferometric VLTI-MIDI data ($8$-$13~\mu$m), at phases $0.18$, $0.49$, $0.65$, together with literature photometric data, using the latest-generation self-consistent dynamic atmosphere models for carbon-rich stars: DARWIN.   We determine the fundamental stellar parameters: $T_\text{eff} = 2600~$K, $L_\text{bol} = 3585~$L$_{\odot}$, $M = 1.5~$M$_{\odot}$, $C/O = 1.35$, $\dot{M} = 2.50\cdot10^{-6}$M$_{\odot}$/yr. We calculate the stellar photospheric radii at the three phases: $479$, $494$, $448$ R$_{\odot}$; and the dust radii: $780$, $853$, $787$ R$_{\odot}$. The dynamic models can fairly explain the observed $N$-band visibility and spectra, although there is some discrepancy between the data and the models, which is discussed in the text.   We discuss the possible causes of the temporal variations of the outer atmosphere, deriving an estimate of the magnetic field strength, and computing upper limits for the Alfv\'{e}n waves velocity. In addition, using period-luminosity sequences, and interferometric modeling, we suggest V Oph as a candidate to be reclassified as a semi-regular star.

## Full text

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## Figures

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## References

112 references — full list in the complete paper: https://tomesphere.com/paper/1907.08693/full.md

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Source: https://tomesphere.com/paper/1907.08693