Add to ORKGGyrochronology, which describes the empirical relationship among stellar mass, rotation period, and age, is a potentially powerful tool for determining the ages of stars, upon which the understanding of stellar evolutionary models hangs. Well-calibrated with open clusters up to the age of ~2.5 Gyr, predictions from gyrochronology are in conflict with asteroseismic observations of older stars, and the underlying physics are poorly understood. The solar-age, open cluster M67, recently observed by the NASA K2 mission, offers the opportunity to test both gyrochronology and more physically-motivated angular momentum evolution models. Here, we seek to gain insight into the angular momentum evolution of solar-age stars through the analysis of K...
Accurate stellar ages are essential for our understanding of the star formation history of the Milky...
We present a catalog of ~100,000 periodic variable stars in TESS FFI data among members of widely di...
We present stellar rotation periods for late K- and early M-dwarf members of the 4 Gyr old open clus...
Gyrochronology, which describes the empirical relationship among stellar mass, rotation period, and ...
The open cluster M67 offers a unique opportunity to measure rotation periods for solar-age stars acr...
Gyrochronology is the method of determining a stars age based on its rotation period and mass. A coo...
Stellar ages will play a big role in the next generation of astronomy. Useful to exoplaneteers and g...
Our aim is to measure stellar rotation periods from the Kepler K2 Campaign 2 light curves to study t...
Gyrochronology, the empirical relation between rotation and age, can provide important leverage on i...
We are determining rotation periods for an ensemble of over 100 wide non-interacting binary stars in...
Gyrochronology is the technique that uses rotation periods to derive stellar ages via age-rotation r...
It is known that for a star like the Sun, rotation and magnetic activity evolve with age. Indeed, in...
International audienceContext. Age estimation techniques such as gyrochronology and magnetochronolog...
The spindown of stars beyond ages of 1Gyr is still enigmatic due to a lack of accessible calibrators...
Essential to understanding the history of the Galaxy’s stellar populations, ages are among the most ...
Accurate stellar ages are essential for our understanding of the star formation history of the Milky...
We present a catalog of ~100,000 periodic variable stars in TESS FFI data among members of widely di...
We present stellar rotation periods for late K- and early M-dwarf members of the 4 Gyr old open clus...
Gyrochronology, which describes the empirical relationship among stellar mass, rotation period, and ...
The open cluster M67 offers a unique opportunity to measure rotation periods for solar-age stars acr...
Gyrochronology is the method of determining a stars age based on its rotation period and mass. A coo...
Stellar ages will play a big role in the next generation of astronomy. Useful to exoplaneteers and g...
Our aim is to measure stellar rotation periods from the Kepler K2 Campaign 2 light curves to study t...
Gyrochronology, the empirical relation between rotation and age, can provide important leverage on i...
We are determining rotation periods for an ensemble of over 100 wide non-interacting binary stars in...
Gyrochronology is the technique that uses rotation periods to derive stellar ages via age-rotation r...
It is known that for a star like the Sun, rotation and magnetic activity evolve with age. Indeed, in...
International audienceContext. Age estimation techniques such as gyrochronology and magnetochronolog...
The spindown of stars beyond ages of 1Gyr is still enigmatic due to a lack of accessible calibrators...
Essential to understanding the history of the Galaxy’s stellar populations, ages are among the most ...
Accurate stellar ages are essential for our understanding of the star formation history of the Milky...
We present a catalog of ~100,000 periodic variable stars in TESS FFI data among members of widely di...
We present stellar rotation periods for late K- and early M-dwarf members of the 4 Gyr old open clus...