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Post Info TOPIC: L1448 IRS3B


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Posts: 131433
Date:
IRAS 03225+3034
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Title: A Triple Protostar System Formed via Fragmentation of a Gravitationally Unstable Disk
Author: John Tobin (Oklahoma/Leiden), Kaitlin Kratter (Arizona), Magnus Persson (Onsala), Leslie Looney (Illinois), Michael Dunham (SUNY-Fredonia), Dominique Segura-Cox (Illinois), Zhi-Yun Li (Virginia), Claire Chandler (NRAO), Sarah Sadavoy (MPIA), Robert Harris (Illinois), Carl Melis (UCSD), Laura Perez (MPIfR)

Binary and multiple star systems are a frequent outcome of the star formation process, and as a result, almost half of all sun-like stars have at least one companion star. Theoretical studies indicate that there are two main pathways that can operate concurrently to form binary/multiple star systems: large scale fragmentation of turbulent gas cores and filaments or smaller scale fragmentation of a massive protostellar disk due to gravitational instability. Observational evidence for turbulent fragmentation on scales of >1000~AU has recently emerged. Previous evidence for disk fragmentation was limited to inferences based on the separations of more-evolved pre-main sequence and protostellar multiple systems. The triple protostar system L1448 IRS3B is an ideal candidate to search for evidence of disk fragmentation. L1448 IRS3B is in an early phase of the star formation process, likely less than 150,000 years in age, and all protostars in the system are separated by <200~AU. Here we report observations of dust and molecular gas emission that reveal a disk with spiral structure surrounding the three protostars. Two protostars near the center of the disk are separated by 61 AU, and a tertiary protostar is coincident with a spiral arm in the outer disk at a 183 AU separation. The inferred mass of the central pair of protostellar objects is ~1 solar masses, while the disk surrounding the three protostars has a total mass of ~0.30 solar masses. The tertiary protostar itself has a minimum mass of ~0.085 solar masses. We demonstrate that the disk around L1448 IRS3B appears susceptible to disk fragmentation at radii between 150~AU and 320~AU, overlapping with the location of the tertiary protostar. This is consistent with models for a protostellar disk that has recently undergone gravitational instability, spawning one or two companion stars.

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Posts: 131433
Date:
L1448 IRS3B
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Young stellar system caught in act of forming close multiples

For the first time, astronomers have seen a dusty disk of material around a young star fragmenting into a multiple-star system. Scientists had suspected such a process, caused by gravitational instability, was at work, but new observations with the NSF-funded Atacama Large Millimeter/submillimeter Array (ALMA) and Karl G. Jansky Very Large Array (VLA) revealed the process in action.
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