T. Pavlidou, A. Scholz, K. Muzic
Abstract
Establishing ages for young clusters is key for properly tracking the star formation history of a region. In this paper, we investigate a new approach to estimating ages for young populations, based on the well-founded assumption that the initial mass function is the same throughout a star forming cloud. We trial this method for six young clusters in the Perseus star forming region. For all six clusters, we construct new member samples in a homogeneous way using Gaia DR3. We estimate masses by comparing 2MASS photometry to theoretical isochrones, including Monte Carlo simulations to propagate the errors. We compare the mass distributions of the clusters for a range of plausible ages, looking for a combination of ages that results in indistinguishable mass distributions across the region. We find the best fit for ages of 1 Myr for NGC 1333+Autochthe, 2 Myr for IC 348, 2─3 Myr for Heleus, 3─4 Myr for Mestor, 4─5 Myr for Electryon+Cynurus, and 5─8 Myr for Alcaeus. All other combinations of ages are ruled out by this criterion. The established age sequence is consistent with the relative ages inferred from disc fractions, and broadly aligns with the age sequence determined in previous studies using isochrone fitting. We suggest that this approach can be a useful complement and cross-check to established methods to estimate ages in young populations.
Keywords
stars: formation / stars: general / stars: kinematics and dynamics / stars: luminosity function / mass function / stars: pre-main-sequence
Monthly Notices of the Royal Astronomical Society
Volume 546, Issue stag160, Page 12
2026 March
