# Evolution of young protoclusters embedded in dense massive clumps. A new   grid of population synthesis SED models and a new set of L/M evolutionary   tracks

**Authors:** S. Molinari (1), A. Baldeschi (1), T.P. Robitaille (2), E.F.E. Morales, (2,5), E. Schisano (1), A. Traficante (1), M. Merello (1), M. Molinaro (3),, F. Vitello (4), E. Sciacca (4), S.J. Liu (1) ((1) INAF-IAPS Roma, I, (2) MPIA, Heidelberg, D, (3) INAF-OATS Trieste, I, (4) INAF-OACT Catania, I, (5) Phys., Inst. Universitat Koeln, D)

arXiv: 1904.08140 · 2019-04-24

## TL;DR

This paper introduces a comprehensive grid of 20 million SED models for young embedded clusters in dense clumps, enabling improved analysis of their properties and evolutionary stages through new diagnostic tools and tracks.

## Contribution

It provides the first extensive set of synthesis SED models for embedded YSO clusters and new L/M evolutionary tracks, enhancing understanding of protocluster evolution.

## Key findings

- SED fitting effectively determines clump mass and dust temperature.
- L/M ratios help distinguish different core fractions and evolutionary stages.
- Models show the presence of high L/M without ZAMS stars, indicating early evolutionary phases.

## Abstract

A grid of 20 millions 3-1100$\mu$m SED models is presented for synthetic young clusters embedded in dense clumps. The models depend on four primary parameters: the clump mass M$_{clump}$ and dust temperature T$_{dust}$, the fraction of mass f$_{core}$ locked in dense cores, and the age of the clump t$_{SF}$. We populate the YSO clusters using the IMF from Kroupa(2001) and the YSOs SED models grid of Robitaille et al. (2006). We conduct extensive testing of SED fitting using a simulated dataset and we find that M$_{clump}$ essentially depends on the submillimeter portion of the SED, while T$_{dust}$ is mostly determined from the shape of the SED in the 70-350$\mu$m range. Thanks to the large number of models computed we verify that the combined analysis of L/M, [8-24] and [24-70] colours removes much of the SEDs f$_{core}$-t$_{SF}$ degeneracy. The L/M values are particularly useful to diagnose f$_{core}$. L/M$\leq$1 identifies protoclusters with f$_{core}\leq$0.1 and t$_{SF} \leq 10^5$ years, while L/M$\geq$10 excludes f$_{core}\leq$0.1. We characterize lower limits of L/M where ZAMS stars are not found in models, and we also find models with L/M $\geq$10 and no ZAMS stars, in which [8-24]$\geq0.8\pm 0.1$ independently from M$_{clump}$, temperature and luminosity. This is the first set of synthesis SED models suited to model for embedded and unresolved clusters of YSOs. A set of new evolutionary tracks in the L/M diagram is also presented.

## Full text

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## Figures

29 figures with captions in the complete paper: https://tomesphere.com/paper/1904.08140/full.md

## References

51 references — full list in the complete paper: https://tomesphere.com/paper/1904.08140/full.md

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Source: https://tomesphere.com/paper/1904.08140