Widespread HCN maser emission in carbon-rich evolved stars

Abstract

Context. HCN is a major constituent of the circumstellar envelopes of carbon-rich evolved stars, and rotational lines from within its vibrationally excited states probe parts of these regions closest to the stellar surface. A number of such lines are known to show maser action. Historically, in one of them, the 177 GHz J=2→1 line in the l-doubled bending mode has been found to show relatively strong maser action, with results only published for a single object, the archetypical high-mass loss asymptotic giant branch (AGB) star IRC+10216. Aims. To examine how common 177 GHz HCN maser emission is, we conducted an exploratory survey for this line toward a select sample of carbon-rich asymptotic giant branch stars that are observable from the southern hemisphere. Methods. We used the Atacama Pathfinder Experiment 12 meter submillimeter Telescope (APEX) equipped with a new receiver to simultaneously observe three J=2→1 HCN rotational transitions, the (0,11 c,0) and (0,11 d,0) l-doublet components, and the line from the (0,0,0) ground state. Results. The (0,11 c,0) maser line is detected toward 11 of 13 observed sources, which all show emission in the (0,0,0) transition. In most of the sources, the peak intensity of the (0,11 c,0) line rivals that of the (0,0,0) line; in two sources, it is even stronger. Except for the object with the highest mass-loss rate, IRC+10216, the (0,11 c,0) line covers a smaller velocity range than the (0,0,0) line. Conclusions. Maser emission in the 177 GHz J=2→1 (0,11 c,0) line of HCN appears to be common in carbon-rich AGB stars. (Abbreviated)