Stellar age compression in spectroscopic estimates can produce apparent rapid thick-disk formation signatures without requiring an intrinsically bursty history.
APOKASC-3: The third joint spectroscopic and asteroseismic catalog for evolved stars in the Kepler fields
2 Pith papers cite this work. Polarity classification is still indexing.
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In specific regions of observational data quality, stellar age inferences yield a stable but biased Milky Way disk formation timescale offset by 0.5-1 Gyr from independent asteroseismic references.
citing papers explorer
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Stellar Age Compression Reshapes Interpretations of the Milky Way Thick-Disk Formation History
Stellar age compression in spectroscopic estimates can produce apparent rapid thick-disk formation signatures without requiring an intrinsically bursty history.
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Stable but Wrong: An Inference Limit in Galactic Archaeology
In specific regions of observational data quality, stellar age inferences yield a stable but biased Milky Way disk formation timescale offset by 0.5-1 Gyr from independent asteroseismic references.