📝 SummarXiv

Abstract

We study how stellar velocity dispersion within the Scorpius-Centaurus OB association (Sco-Cen) has evolved over approximately 20 million years, from its formation to the present day. Using data from the \textit{Gaia} mission along with supplementary stellar radial velocities, we identified a surprising sequence of abrupt jumps and intervening plateaus in the velocity dispersion correlating with star formation bursts. These changes in velocity dispersion coincide with the association expanding in size. We measure a present-day expansion rate of about 10--12\,pc\,Myr$^{-1}$ and observe that younger star clusters within the association exhibit higher velocities compared to older ones. This result, along with the stepwise increase in both velocity dispersion and spatial extent over time, suggests a structured and sequential star formation process rather than a random one. This phased evolution strongly suggests that stellar feedback is the primary driver of Sco-Cen's star formation history, expansion, and eventual dispersal. Our findings emphasize the value of precisely characterizing stellar populations within OB associations, particularly through the creation of detailed, high-resolution age maps.