# The Bridge: a transient phenomenon of forming stellar multiples

**Authors:** Michael Kuffmeier, Hannah Calcutt, Lars E. Kristensen

arXiv: 1907.02083 · 2019-08-21

## TL;DR

This study uses magnetohydrodynamical simulations to show that transient bridge-like structures form during the formation of multiple star systems within filamentary molecular clouds, driven by colliding gas flows.

## Contribution

It provides the first detailed simulation-based analysis of how filamentary bridges form transiently during multiple star formation, linking large-scale flows to small-scale protostellar interactions.

## Key findings

- Protostellar companions form at ~1000 au due to colliding flows.
- Bridge structures are transient, lasting up to a few 10 kyr.
- Bridges can become kinematically quiescent and still contribute to accretion.

## Abstract

Observations with modern instruments such as Herschel reveal that stars form clustered inside filamentary arms of ~1 pc length embedded in Giant Molecular Clouds. On smaller scales (~1000 au), observations of, e.g., IRAS 16293--2422 show signs of filamentary `bridge' structures connecting young protostars in their birth environment. We investigate the formation of a deeply embedded triple protostellar system, and characterize its connection to the filamentary structure present on GMC scales. Using the magnetohydrodynamical code RAMSES, we carry out zoom-in simulations of low-mass star formation starting from Giant-Molecular-Cloud-scales. Colliding flows of gas in the filamentary arms induce the formation of two protostellar companions at distances of ~1000 au from the primary. After their birth, the stellar companions quickly (~10 kyr) approach and orbit the primary on eccentric orbits with separations of ~100 au. The colliding flows induce transient structures lasting for up to a few 10 kyr connecting two forming protostellar objects that are kinematically quiescent along the line-of-sight. Colliding flows compress the gas and trigger the formation of stellar companions via turbulent fragmentation. Our results suggest that protostellar companions form with a wide separation of ~1000 au. Smaller separations (~100 au or less) are a consequence of subsequent migration and capturing. Associated with the formation phase of the companion, the turbulent environment induces arc- and bridge-like structures. These bridges can become kinematically quiescent, when the velocity components of the colliding flows eliminate each other. However, the gas in bridges still contributes to stellar accretion later. Our results demonstrate: bridge-like structures are a transient phenomenon of stellar multiple formation.

## Full text

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## Figures

16 figures with captions in the complete paper: https://tomesphere.com/paper/1907.02083/full.md

## References

80 references — full list in the complete paper: https://tomesphere.com/paper/1907.02083/full.md

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Source: https://tomesphere.com/paper/1907.02083