# Observations meets theory in clustered star formation

**Authors:** Susanne Pfalzner

arXiv: 1907.09712 · 2020-03-18

## TL;DR

This paper combines observations and simulations to uncover underlying structures in clustered star formation, revealing relationships like the mass-radius relation and insights into cluster expansion and gas expulsion effects.

## Contribution

It demonstrates how integrating observational data with simulations constrains models of cluster formation and evolution, especially regarding gas expulsion and star formation efficiency.

## Key findings

- Mass-radius relation for young associations follows M_c = C R_c^γ with γ ≈ 1.7
- Young stellar groups expand within 1-20 Myr, consistent with gas expulsion scenarios
- Upcoming data can better constrain parameters like SFE and gas expulsion timescales.

## Abstract

Stars form predominantly in groups which display a broad spectrum of masses, sizes, and other properties. Despite this diversity there exist an underlying structure that can constrain cluster formation theories. We show how combining observations with simulations allows to disclose this underlying structure. One example is the mass-radius relation for young embedded associations which follows $M_c = CR_c^\gamma$ with $\gamma$ = 1.7 $\pm$0.2, which is directly related to the mass-radius relation of clumps. Results based on GAIA 2D have demonstrated that young stellar groups (1--5 Myr) expand and that this expansion process is largely over by an age of 10-20 Myr. Such a behaviour is expected within the gas expulsion scenario. However, the effect of gas expulsion depends strongly on a the SFE, the gas expulsion time scale, etc. Here it is demonstrated how existing and upcoming data are able to constrain these parameters and correspondingly the underlying models.

## Full text

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## Figures

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## References

16 references — full list in the complete paper: https://tomesphere.com/paper/1907.09712/full.md

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Source: https://tomesphere.com/paper/1907.09712