2011
DOI: 10.1051/0004-6361/201117206
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Dissecting a hot molecular core: the case of G31.41+0.31

Abstract: Context. The role of disks in the formation of high-mass stars is still a matter of debate but the detection of circumstellar disks around O-type stars would have a profound impact on high-mass star formation theories. Aims. We made a detailed observational analysis of a well known hot molecular core lying in the high-mass star-forming region G31.41+0.31. This core is believed to contain deeply embedded massive stars and presents a velocity gradient that has been interpreted either as rotation or as expansion,… Show more

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Cited by 59 publications
(136 citation statements)
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“…That suggests that the water masers in "J2" trace the root of a collimated outflow which has propagated throughout the HMC accelerating the core gas up to 20 km s −1 (along the line-of-sight) at separations of ∼10 4 AU from the powering MYSO. That the observed bipolar (east-west) distribution of the high-velocity 12 CO(2-1) emission could mark a collimated outflow has been also discussed by Cesaroni et al (2011). Using the CH 13 3 CN(12-11) lines, which show a well defined V LSR gradient (at PA = 68 • ) consistent in orientation and amplitude with that seen in 12 CO(2-1) and, in addition, being optically thin, permit a reliable estimate of the whole flow mass, these authors derive a value for the outflow momentum rate oḟ P = 0.3 M yr −1 km s −1 .…”
Section: The "J2" Water Maser Groupmentioning
confidence: 78%
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“…That suggests that the water masers in "J2" trace the root of a collimated outflow which has propagated throughout the HMC accelerating the core gas up to 20 km s −1 (along the line-of-sight) at separations of ∼10 4 AU from the powering MYSO. That the observed bipolar (east-west) distribution of the high-velocity 12 CO(2-1) emission could mark a collimated outflow has been also discussed by Cesaroni et al (2011). Using the CH 13 3 CN(12-11) lines, which show a well defined V LSR gradient (at PA = 68 • ) consistent in orientation and amplitude with that seen in 12 CO(2-1) and, in addition, being optically thin, permit a reliable estimate of the whole flow mass, these authors derive a value for the outflow momentum rate oḟ P = 0.3 M yr −1 km s −1 .…”
Section: The "J2" Water Maser Groupmentioning
confidence: 78%
“…In an attempt to search for outflows emerging from the HMC in G31.41+0.31, Cesaroni et al (2011) have used the SMA to map the emission of the CO(2-1) line with an angular resolution of ≈0. 8.…”
Section: The "J2" Water Maser Groupmentioning
confidence: 99%
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