# Evidence of interacting elongated filaments in the star-forming site   AFGL 5142

**Authors:** Lokesh K. Dewangan, Devendra K. Ojha, Tapas Baug, R. Devaraj

arXiv: 1903.07099 · 2019-05-01

## TL;DR

This study reveals interacting elongated filaments in AFGL 5142, showing how their collision likely triggers star formation, supported by multi-wavelength observations and YSO distribution analysis.

## Contribution

It provides new evidence of filament interaction and collision as a mechanism for star formation in AFGL 5142, using comprehensive multi-wavelength data.

## Key findings

- Identification of a massive inverted Y-like structure with overlapping filaments.
- Detection of two intertwined cloud components in velocity space.
- Correlation between filament interaction zones and high YSO density.

## Abstract

To probe the ongoing physical mechanism, we studied a wide-scale environment around AFGL 5142 (area ~25 pc x 20 pc) using a multi-wavelength approach. The Herschel column density (N(H_2)) map reveals a massive inverted Y-like structure (mass ~6280 M_sun), which hosts a pair of elongated filaments (lengths >10 pc). The Herschel temperature map depicts the filaments in a temperature range of ~12.5-13.5 K. These elongated filaments overlap each other at several places, where N(H_2) > 4.5 x 10^{21}cm^{-2}. The 12CO and 13CO line data also show two elongated cloud components (around -1.5 and -4.5 km/s) toward the inverted Y-like structure, which are connected in the velocity space. First moment maps of CO confirm the presence of two intertwined filamentary clouds along the line of sight. These results explain the morphology of the inverted Y-like structure through a combination of two different filamentary clouds, which are also supported by the distribution of the cold HI gas. Based on the distribution of young stellar objects (YSOs), star formation (SF) activities are investigated toward the inverted Y-like structure. The northern end of the structure hosts AFGL 5142 and tracers of massive SF, where high surface density of YSOs (i.e., 5-240 YSOs/pc^2) reveals strong SF activity. Furthermore, noticeable YSOs are found toward the overlapping zones of the clouds. All these observational evidences support a scenario of collision/interaction of two elongated filamentary clouds/flows, which appears to explain SF history in the site AFGL 5142.

## Full text

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## Figures

18 figures with captions in the complete paper: https://tomesphere.com/paper/1903.07099/full.md

## References

59 references — full list in the complete paper: https://tomesphere.com/paper/1903.07099/full.md

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Source: https://tomesphere.com/paper/1903.07099