Linking Stellar Coronal Activity and Rotation at 500 Myr: A Deep Chandra Observation of M37

Abstract

Empirical calibrations of the stellar age-rotation-activity relation (ARAR) rely on observations of the co-eval populations of stars in open clusters. We used the Chandra X-ray Observatory to study M37, a 500-Myr-old open cluster that has been extensively surveyed for rotation periods (P rot). M37 was observed almost continuously for five days, for a total of 440.5 ksec, to measure stellar X-ray luminosities (LX), a proxy for coronal activity, across a wide range of masses. The cluster's membership catalog was revisited to calculate updated membership probabilities from photometric data and each star's distance to the cluster center. The result is a comprehensive sample of 1699 M37 members: 426 with P rot, 278 with X-ray detections, and 76 with both. We calculate Rossby numbers, Ro = P rot/τ, where τ is the convective turnover time, and ratios of the X-ray-to-bolometric luminosity, L X/L bol, to minimize mass dependencies in our characterization of the rotation-coronal activity relation at 500 Myr. We find that fast rotators, for which Ro<0.090.01, show saturated levels of activity, with log(L X/L bol)=-3.060.04. For Ro≥0.090.01, activity is unsaturated and follows a power law of the form Roβ, where β=-2.03-0.14+0.17. This is the largest sample available for analyzing the dependence of coronal emission on rotation for a single-aged population, covering stellar masses in the range 0.4-1.3 M, P rot in the range 0.4-12.8 d, and L X in the range 1028.4-30.5 erg s-1. Our results make M37 a new benchmark open cluster for calibrating the ARAR at ages of ≈500 Myr.