Researchers discover gas streamers fueling triple infant stars

Researchers discover gas streamers fueling triple infant stars

New observations and simulations of three spiral arms​ of gas feeding​ material to three protostars forming in ​a trinary ‍system have clarified the formation of multi-star systems.

Most stars with a mass similar to the sun form in multi-star systems together with⁤ other stars.⁤ So an understanding of multi-star system formation is important to an overall theory of star formation. However, the complexity and‍ lack of high-resolution, high-sensitivity data has left astronomers uncertain about ⁣the‌ formation‌ scenario.

In particular, recent observations of protostars often⁤ reported structures called “streamers” of gas flows toward the protostars, but‍ it has been unclear how these streamers form.

An international team led‍ by Jeong-Eun Lee, a professor⁣ at Seoul⁤ National University, used the Atacama Large Millimeter/submillimeter Array (ALMA) to observe the trinary protostar system IRAS 04239+2436 located 460 light-years away in the constellation Taurus. The team found that emissions from ⁣sulfur monoxide (SO) molecules⁤ trace three spiral arms around the three protostars forming in the system. Their paper ‍is published in The Astrophysical Journal.

A simulation of multiple​ star formation by the supercomputer⁤ “ATERUI.” The movie shows that multiple protostars are born in ‌a filamentary turbulent gas cloud, and they excite spiral arms⁣ and disturb‍ the surrounding gas as they orbit. Credit: Tomoaki Matsumoto, Takaaki Takeda, 4D2U Project, NAOJ

Comparison with simulations led by Tomoaki Matsumoto, a professor at Hosei University ‌using the supercomputers ATERUI and ATERUI II in the‍ Center ⁤for Computational Astrophysics ⁣at the National Astronomical Observatory of Japan (NAOJ) indicate that the⁣ three spiral arms are ⁤streamers feeding material to the three protostars.

2023-08-04 12:00:04
Original from phys.org rnrn

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