On the evolution of irradiated turbulent clouds: a comparative study between modes of triggered star formation

Anathpindika, S.; Bhatt, H. C.

doi:10.1111/j.1365-2966.2012.22094.x

Cited by 2 publications

(1 citation statement)

References 56 publications

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“…We here present a scenario that a cloud-cloud collision between the two clouds triggered the formation of NGC3603. The bridging feature discussed in Section 3.1 suggests that the two clouds are physically interacting; numerical simuations of cloud-cloud collisions find the intermediate velocity features between the two colliding clouds (Habe & Ohta 1992;Anathpindika 2010;Anathpindika & Bhatt 2012). In these models two colliding clouds form a compressed layer which is highly turbulent and dense, leading to the formation of dense clumps where high-mass stars are formed.…”

Section: Discussionmentioning

confidence: 98%

Molecular Clouds Toward the Super Star Cluster NGC 3603; Possible Evidence for a Cloud-Cloud Collision in Triggering the Cluster Formation

Fukui

Ohama

Hanaoka

et al. 2013

ApJ

175

170

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We present new large field observations of molecular clouds with NANTEN2 toward the super star cluster NGC3603 in the transitions 12 CO(J=2-1, J=1-0) and 13 CO(J=2-1, J=1-0). We suggest that two molecular clouds at 13 km s −1 and 28 km s −1 are associated with NGC3603 as evidenced by higher temperatures toward the H II region as well as morphological correspondence. The mass of the clouds is too small to gravitationally bind them, given their relative motion of ∼20 km s −1 . We suggest that the two clouds collided with each other a Myr ago to trigger the formation of the super star cluster. This scenario is able to explain the origin of the highest mass stellar population in the cluster which is as young as a Myr and is segregated within the central sub-pc of the cluster. This is the second super star cluster along side Westerlund2 where formation may have been triggered by a cloud-cloud collision. Subject headings: ISM: clouds -open clusters and associations -individual: (NGC3603)the large turbulence excited by the shock interaction. This is the second case of formation of a super star cluster by triggering in a cloud-cloud collision along side Westerlund2 NANTEN2 is an international collaboration of ten universities, Nagoya University,

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Section: Discussionmentioning

confidence: 98%

Molecular Clouds Toward the Super Star Cluster NGC 3603; Possible Evidence for a Cloud-Cloud Collision in Triggering the Cluster Formation

Fukui

Ohama

Hanaoka

et al. 2013

ApJ

175

170

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ATOMS: ALMA three-millimeter observations of massive star-forming regions – XIII. Ongoing triggered star formation within clump-fed scenario found in the massive (∼1500 M⨀) clump

Zhang

Wang

et al. 2023

Monthly Notices of the Royal Astronomical Society

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Whether ionization feedback triggers the formation of massive stars is highly debated. Using ALMA 3 mm observations with a spatial resolution of ∼0.05 pc and a mass sensitivity of 1.1 $\rm M_\odot$ beam−1 at 20 K, we investigate the star formation and gas flow structures within the ionizing feedback-driven structure, a clump-scale massive (≳ 1500 $\rm M_\odot$) bright-rimmed cloud (BRC) associated with IRAS 18290−0924. This BRC is bound only if external compression from ionized gas is considered. A small-scale (≲ 1 pc) age sequence along the direction of ionizing radiation is revealed for the embedded cores and protostars, which suggests triggered star formation via radiation-driven implosion (RDI). Furthermore, filamentary gas structures converge towards the cores located in the BRC’s center, indicating that these filaments are fueling mass towards cores. The local core-scale mass infall rate derived from H13CO+ J = 1 − 0 blue profile is of the same order of magnitude as the filamentary mass inflow rate, approximately 1 $\rm M_\odot$ kyr−1. A photodissociation region (PDR) covering the irradiated clump surface is detected in several molecules, such as CCH, HCO+, and CS whereas the spatial distribution stratification of these molecules is indistinct. CCH spectra of the PDR possibly indicate a photoevaporation flow leaving the clump surface with a projected velocity of ∼2 km s−1. Our new observations show that RDI accompanied by a clump-fed process is operating in this massive BRC. Whether this combined process works in other massive BRCs is worth exploring with dedicated surveys.

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On the evolution of irradiated turbulent clouds: a comparative study between modes of triggered star formation

Cited by 2 publications

References 56 publications

Molecular Clouds Toward the Super Star Cluster NGC 3603; Possible Evidence for a Cloud-Cloud Collision in Triggering the Cluster Formation

Molecular Clouds Toward the Super Star Cluster NGC 3603; Possible Evidence for a Cloud-Cloud Collision in Triggering the Cluster Formation

ATOMS: ALMA three-millimeter observations of massive star-forming regions – XIII. Ongoing triggered star formation within clump-fed scenario found in the massive (∼1500 M⨀) clump

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