A CO(3-2) survey of nearby Mira variables

Abstract

A survey of C0(3-2) emission from optically visible oxygen-rich Mira variable stars within 500 pc of the Sun was conducted. A molecular envelope was detected surrounding 36 of the 66 stars examined. Some of these stars have lower outflow velocities than any Miras previously detected in CO. The average terminal velocity of the ejected material was 7.0 km/s, about half the value found in Miras selected by infrared criteria. None of the stars with spectral types earlier than M5.5 were detected. The terminal velocity increases as the temperature of the stellar photosphere decreases, as would be expected for a radiation driven wind. Mass-loss rates for the detected objects were calculated, and it was found that there is no correlation between the infrared color of a Mira variable, and its mass-loss rate. The mass-loss rate is correlated with the farinfrared luminosity, although a few stars appear to have extensive dust envelopes without any detectable molecular wind. A power-law relationship is found to hold between the mass-loss rate and the terminal velocity of the ejected material. This relationship indicates that the dust envelope should be optically thick in the near infrared and visible regions of the spectrum when the outflow velocity is ~ 17 km/s. At the low end of the range of outflow velocities seen, the dust drift velocity may be high enough to lead to the destruction of the grains via sputtering. Half of the stars which were detected were reobserved in the C0(4-3) transition. A comparison of the outflow velocities obtained from these observations with those obtained by other investigators at lower frequencies shows no evidence for gradual acceleration of the outer molecular envelope.