Qz. Zhang et al., Search for CO outflows toward a sample of 69 high-mass protostellar candidates: Frequency of occurrence, ASTROPHYS J, 552(2), 2001, pp. L167-L170
A survey for molecular outflows was carried out by mapping the CO J = 2-1 l
ine toward a sample of 69 luminous IRAS point sources. Sixty objects have I
RAS luminosities from 10(3) to 10(5) L, and are associated with dense gas t
raced by NH,, identifying them as high-mass star-forming regions. Among 69
sources, 65 sources have data that are suitable for outflow identification.
Thirty-nine regions show spatially confined high-velocity wing emission in
CO, indicative of molecular outflows. Most objects without identifiable ou
tflows Lie within 0 degrees < l < 50 degrees where outflow signatures are c
onfused by multiple cloud components along the line of sight. Excluding 26
sources with 0 degrees < l < 50 degrees, we found 35 outflows out of 39 sou
rces, which yields an outflow detection/rate of 90%. Many of the outflows c
ontain masses of more than 10 M. and have momenta of a few hundred M. km s(
-1), at least 2 orders of magnitude larger than those in typical low-mass o
utflows. This class of massive and energetic outflows is most likely driven
by high-mass young stellar objects. The high detection rate indicates that
molecular outflows are common toward high-mass young stars. Given the conn
ection between outflows and accretion disks in low-mass stars, we suggest t
hat high-mass stars may form via an accretion-outflow process, similar to t
heir low-mass counterparts.