# Determining stellar parameters of asteroseismic targets: going beyond   the use of scaling relations

**Authors:** Tha\'ise S. Rodrigues, Diego Bossini, Andrea Miglio, L\'eo Girardi,, Josefina Montalb\'an, Arlette Noels, Michele Trabucchi, Hugo Rodrigues, Coelho, Paola Marigo

arXiv: 1701.04791 · 2017-01-25

## TL;DR

This paper enhances stellar parameter estimation for asteroseismic targets by integrating detailed grid-based seismic data into Bayesian models, improving accuracy over traditional scaling relations.

## Contribution

It introduces a method combining detailed seismic parameters with Bayesian analysis for more precise stellar mass and age determinations.

## Key findings

- Masses and ages can be determined with 5% and 19% precision using seismic data.
- Adding luminosity information improves precision to 3% and 10%.
- Application to NGC 6819 matches isochrone ages and reveals larger-than-expected age dispersion.

## Abstract

Asteroseismic parameters allow us to measure the basic stellar properties of field giants observed far across the Galaxy. Most of such determinations are, up to now, based on simple scaling relations involving the large frequency separation, \Delta\nu, and the frequency of maximum power, \nu$_{max}$. In this work, we implement \Delta\nu\ and the period spacing, {\Delta}P, computed along detailed grids of stellar evolutionary tracks, into stellar isochrones and hence in a Bayesian method of parameter estimation. Tests with synthetic data reveal that masses and ages can be determined with typical precision of 5 and 19 per cent, respectively, provided precise seismic parameters are available. Adding independent information on the stellar luminosity, these values can decrease down to 3 and 10 per cent respectively. The application of these methods to NGC 6819 giants produces a mean age in agreement with those derived from isochrone fitting, and no evidence of systematic differences between RGB and RC stars. The age dispersion of NGC 6819 stars, however, is larger than expected, with at least part of the spread ascribable to stars that underwent mass-transfer events.

## Full text

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## Figures

32 figures with captions in the complete paper: https://tomesphere.com/paper/1701.04791/full.md

## References

70 references — full list in the complete paper: https://tomesphere.com/paper/1701.04791/full.md

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Source: https://tomesphere.com/paper/1701.04791