What question did this study set out to answer?

This research aims to estimate the rotational ages of approximately 300,000 stars using gyrochronology.

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June 10, 2026Open Access

Rotational ages for 300'000 stars from Kepler, Gaia, ASAS-SN, and NGTS

Key Points

This research aims to estimate the rotational ages of approximately 300,000 stars using gyrochronology.
Utilized PERICLES isochrones to calculate ages based on observed stellar rotation rates.
Analyzed large-scale samples of stellar rotation from Kepler, Gaia, ASAS-SN, and NGTS.
Included stars from isolated field regions, open clusters, and wide binaries.
Derivation of robust ages for isolated stars was confirmed with ages of stars in open clusters.
About 300,000 rotational ages were successfully calculated, enhancing understanding of stellar evolution.
Demonstrated that the age estimates are reliable across different types of star environments.

Abstract

The exploration of stellar rotational evolution has seen major advancements in recent years. Following this progress, several projects, e.g., the PERICLES isochrones, gyro-interp, or ChronoFlow, have been initiated that aim to leverage gyrochronology, the method of using a late-type main sequence star’s observed rotation rate to estimate its age, an otherwise exceedingly difficult quantity to obtain. We used the PERICLES isochrones to calculate rotational ages for altogether about 300k stars in large-scale samples of stellar rotation (e.g., from Kepler, Gaia, ASAS-SN, and NGTS), most of them isolated field stars. The stars from our sample belonging to open clusters or wide binaries demonstrate the robustness of the derived ages.

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