# Properties of Kepler Stars with the Most Powerful Flares

**Authors:** M.M.Katsova, B.A.Nizamov

arXiv: 1812.09580 · 2018-12-27

## TL;DR

This study examines the physical properties of late-type Kepler stars with superflares, revealing they are often young, fast-rotating, larger than the Sun, and may involve a different dynamo mechanism than the solar one.

## Contribution

It provides revised stellar parameters and analyzes the location and characteristics of superflare stars, suggesting a different dynamo process for the strongest stellar flares.

## Key findings

- Superflare stars are mostly between main sequence and subgiant branches.
- Many superflare stars are fast-rotating, young, and larger than the Sun.
- Strong magnetic fields are required for the most energetic superflares.

## Abstract

We analyze physical characteristics of late-type stars wherein the Kepler mission registered superflares. We use the revised stellar fundamental parameters, i.e. effective temperatures Teff and surface gravitational accelerations log g, from the Kepler archive published in 2017, as compared to previous studies by Balona (2015) based on the release of 2011. Among superflare stars there are both single objects and members of eclipsing binaries. We select the late-type stars (with Teff $< 6500$ K) wherein occured the most powerful flares with the total flare energy $> 10^{35}$ erg and consider their locations in the (Teff - log g) diagram. Both components of binaries and single stars appear to reside mostly in between the main sequence and the subgiant branches and therefore have larger radii compared to that of the Sun. Besides, as a rule these single stars are fast rotators and can be considered as young objects that it is difficult to attribute to "solar-type stars". Extremely high flare energy of these stars requires quite strong magnetic fields that cannot be generated even due to scaling of the solar dynamo. Apparently, for explanation of the strongest non-stationary phenomena on stars considered, it would be worthwhile to attract another regime of the dynamo mechanism that can be realized in these objects.

## Full text

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## Figures

4 figures with captions in the complete paper: https://tomesphere.com/paper/1812.09580/full.md

## References

12 references — full list in the complete paper: https://tomesphere.com/paper/1812.09580/full.md

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Source: https://tomesphere.com/paper/1812.09580